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1 
GSM520875_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520876 (pirrota_482_B2_Input(14cyc).293.CEL)
2 
GSM621339_1	Detail=.CEL files generated by the scanner are used as Input files in the MAT software to generate the signal files that are used by CisGenome to identify peaks. .bed were generated with MAT then converted to gff format. .wig files are genereted by CisGenome from MAT .bar files.
3 
GSM390064_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to GFF files and .bedgraph files which indicate the number of reads that map to each base in the genome.
4 
GSM575368_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575369_pirrota_354_E6_Input.182.CEL
5 
GSM432583_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
6 
GSM686709_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
7 
GSM575393_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575394_pirrota_345_E7_Input.173.CEL
8 
GSM520929_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520930 (pirrota_482_B2_Input(14cyc).293.CEL)
9 
GSM847771_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
10 
GSM570038_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie. Signal files were generated with the R package SPP. Peaks were called with MACS.
11 
GSM575380_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575381_pirrota_729_OR_Head_Prep3_Input_20cyc.493.CEL
12 
GSM461206_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
13 
GSM627336_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
14 
GSM847659_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
15 
GSM669543_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
16 
GSM451804_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using TopHat (http://tophat.cbcb.umd.edu/).  The bed file was generated by thresholding the bedgraph file (tag count>=1; minimum run length=50; maximum gap=50).
17 
GSM333849_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
18 
GSM621333_1	Detail=.CEL files generated by the scanner are used as Input files in the MAT software to generate the signal files that are used by CisGenome to identify peaks. .bed were generated with MAT then converted to gff format. .wig files are genereted by CisGenome from MAT .bar files.
19 
GSM461210_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
20 
GSM853480_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
21 
GSM461179_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to GFF files and .bedgraph files which indicate the number of reads that map to each base in the genome.
22 
GSM927232_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
23 
GSM408988_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
24 
GSM520939_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520940 (pirrota_292_A9_Input.136.CEL)
25 
GSM624674_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624675_pirrota_1088_A21_Input.846.CEL
26 
GSM942055_1	Detail=Normalization_and_smoothing_of_log2_ratios:DM:1 protocol. Two-color Agilent tiling arrays were processed by Bioconductor primarily with the Ringo package (Toedling et al., 2007, PMID: 17594472).  Briefly, each array was loess normalized and then probe log2 ratios were smoothed by running medians across windows of 10kb along the genome, requiring at least 3 probes within a window.
27 
GSM853474_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
28 
GSM575508_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575509_pirrota_506_A12_Input_20cyc.328.CEL
29 
GSM624887_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
30 
GSM439451_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
31 
GSM851706_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
32 
GSM942054_1	Detail=Normalization_and_smoothing_of_log2_ratios:DM:1 protocol. Two-color Agilent tiling arrays were processed by Bioconductor primarily with the Ringo package (Toedling et al., 2007, PMID: 17594472).  Briefly, each array was loess normalized and then probe log2 ratios were smoothed by running medians across windows of 10kb along the genome, requiring at least 3 probes within a window.
33 
GSM400656_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
34 
GSM686729_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
35 
GSM686551_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
36 
GSM432580_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
37 
GSM694128_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1   ChIPseq_analysis:DM:1 protocol. *  BEDGRAPH Track Generation:          o Tracks are read into SPP and informative tags are selected using SPP's select.informative.tags function.          o Local sequencing anomalies are removed with SPP's remove.local.tag.anomalies function.          o Input subtracted ChIP density bedgraph track is output with a step size of 100 and a bandwidth of 100 using SPP's get.smoothed.tag.density function. The tags are shifted 1/2 of the optimal shift size discovered with get.binding.characteristics.          o To combine replicates, all the reads were pooled together and the tag shift was estimated as the mean tag shift between the replicates.     * GFF3 Peak Call Generation:          o MAQ files were converted to ELAND using an in-house script.          o The PeakSeq preprocessing scripts were run by an in-house pipeline automation script.          o The PeakSeq v.1.01 C++ code was run with the default parameters and a maximum q-val of .05.          o To combine replicates, overlapping windows of enrichment between the two sets were combined, and the rest were discarded.
38 
GSM520861_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520862 (pirrota_208_S12_Input.58.CEL)
39 
GSM575384_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575385_pirrota_726_Larvae_Prep4_Input_14cyc.490.CEL
40 
GSM881218_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1   ChIPseq analysis BEDGRAPH Generation:DM:1 protocol. BEDGRAPH Track Generation:    * Tracks are read into SPP and informative tags are selected using SPP's select.informative.tags function.    * Local sequencing anomalies are removed with SPP's remove.local.tag.anomalies function.    * Input subtracted ChIP density bedgraph track is output with a step size of 100 and a bandwidth of 100 using SPP's get.smoothed.tag.density function. The tags are shifted 1/2 of the optimal shift size discovered with get.binding.characteristics.    * To combine replicates, all the reads were pooled together and the tag shift was estimated as the mean tag shift between the replicates.
41 
GSM461210_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
42 
GSM624880_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
43 
GSM694124_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1   ORC_ChIPseq_analysis:DM:1 protocol. *  BEDGRAPH Track Generation:          o Tracks are read into SPP and informative tags are selected using SPP's select.informative.tags function.          o Local sequencing anomalies are removed with SPP's remove.local.tag.anomalies function.          o Input subtracted ChIP density bedgraph track is output with a step size of 100 and a bandwidth of 100 using SPP's get.smoothed.tag.density function. The tags are shifted 1/2 of the optimal shift size discovered with get.binding.characteristics.          o To combine replicates, all the reads were pooled together and the tag shift was estimated as the mean tag shift between the replicates.     * GFF3 Peak Call Generation:          o MAQ files were converted to ELAND using an in-house script.          o The PeakSeq preprocessing scripts were run by an in-house pipeline automation script.          o The PeakSeq v.1.01 C++ code was run with the default parameters and a maximum q-val of .05.          o To combine replicates, overlapping windows of enrichment between the two sets were combined, and the rest were discarded.
44 
GSM627396_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
45 
GSM627411_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
46 
GSM401412_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
47 
GSM461176_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to GFF files and .bedgraph files which indicate the number of reads that map to each base in the genome.
48 
GSM575386_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575387_pirrota_725_Larvae_Prep3_Input_14cyc.489.CEL
49 
GSM520800_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520801 (pirrota_212_A8_Input.62.CEL)
50 
GSM521086_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521087 (pirrota_602_B5_Input(20cycles).391.CEL)
51 
GSM627407_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
52 
GSM521102_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521103 (pirrota_540_A12_Input18.362.CEL)
53 
GSM521033_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521034 (pirrota_682_KC2_Input(14cycles).451.CEL)
54 
GSM461187_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
55 
GSM686762_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
56 
GSM408986_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
57 
GSM686759_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
58 
GSM628252_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
59 
GSM627417_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
60 
GSM627387_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
61 
GSM521015_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521016 (pirrota_621_B5_Input-18cycles.406.CEL)
62 
GSM401420_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
63 
GSM451806_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using TopHat (http://tophat.cbcb.umd.edu/).  The bed file was generated by thresholding the bedgraph file (tag count>=1; minimum run length=50; maximum gap=50).
64 
GSM520955_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520956 (pirrota_620_B3_Input-18cycles.405.CEL)
65 
GSM927233_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
66 
GSM521031_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521032 (pirrota_681_KC1_Input(14cycles).450.CEL)
67 
GSM451808_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using TopHat (http://tophat.cbcb.umd.edu/).  The bed file was generated by thresholding the bedgraph file (tag count>=1; minimum run length=50; maximum gap=50).
68 
GSM853488_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
69 
GSM521017_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521018 (pirrota_620_B3_Input-18cycles.405.CEL)
70 
GSM569800_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie. Signal files were generated with the R package SPP. Peaks were called with MACS.
71 
GSM927171_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
72 
GSM387596_1	Detail=Log base 2 (Cy5/Cy3) ratios were bi-weight mean centered
73 
GSM521041_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521042 (pirrota_684_A15_Input.453.CEL)
74 
GSM847674_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
75 
GSM401401_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
76 
GSM451807_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using TopHat (http://tophat.cbcb.umd.edu/).  The bed file was generated by thresholding the bedgraph file (tag count>=1; minimum run length=50; maximum gap=50).
77 
GSM686743_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
78 
GSM627411_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
79 
GSM333833_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
80 
GSM686707_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
81 
GSM432592_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
82 
GSM624868_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
83 
GSM847752_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
84 
GSM624888_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
85 
GSM520828_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520829 (pirrota_481_B1_Input(14cyc).292.CEL)
86 
GSM461193_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
87 
GSM627380_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
88 
GSM439464_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
89 
GSM439462_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
90 
GSM461208_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
91 
GSM575437_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575438_pirrota_602_B5_Input_20cycles.391.CEL
92 
GSM333838_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
93 
GSM575446_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575447_pirrota_684_A15_Input.453.CEL
94 
GSM686606_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
95 
GSM520790_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520791 (pirrota_478_C18-2_Input(14cyc).289.CEL)
96 
GSM627360_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
97 
GSM624620_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624621_pirrota_454_E4_Input.276.CEL
98 
GSM461191_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
99 
GSM927176_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
100 
GSM461209_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
101 
GSM575391_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575392_pirrota_824_E_late_1_inputDNA_20cyc.595.CEL
102 
GSM621328_1	Detail=.CEL files generated by the scanner are used as Input files in the MAT software to generate the signal files that are used by CisGenome to identify peaks. .bed were generated with MAT then converted to gff format. .wig files are genereted by CisGenome from MAT .bar files.
103 
GSM624882_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
104 
GSM853468_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
105 
GSM461209_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
106 
GSM927202_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
107 
GSM927208_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
108 
GSM575510_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575511_pirrota_243_S12_Input_20_cycles.86.CEL
109 
GSM451805_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using TopHat (http://tophat.cbcb.umd.edu/).  The bed file was generated by thresholding the bedgraph file (tag count>=1; minimum run length=50; maximum gap=50).
110 
GSM847673_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
111 
GSM461187_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
112 
GSM927212_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
113 
GSM520935_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520936 (pirrota_479_Kc-1_Input(14cyc).290.CEL)
114 
GSM927224_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
115 
GSM390062_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to GFF files and .bedgraph files which indicate the number of reads that map to each base in the genome.
116 
GSM575382_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575383_pirrota_730_OR_Head_Prep4_Input_20cyc.494.CEL
117 
GSM499657_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using the Illumina Genome Analyzer Pipeline Software.  Signal files were generated with the R package SPP.  Peaks were called with MACS (parameters: --format=ELAND --gsize=120000000 --tsize=36 --bw=250 --mfold=2 --pvalue=1e-3).
118 
GSM686477_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
119 
GSM521061_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521062 (pirrota_760_A17_Input.530.CEL)
120 
GSM390059_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to GFF files and .bedgraph files which indicate the number of reads that map to each base in the genome.
121 
GSM927197_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
122 
GSM575475_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575476_pirrota_879_E_early_1_Input.650.CEL
123 
GSM624646_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624647_pirrota_1205_B5_Input.936.CEL
124 
GSM461203_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
125 
GSM461184_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
126 
GSM686555_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
127 
GSM927210_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
128 
GSM847706_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
129 
GSM636835_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
130 
GSM627382_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
131 
GSM627392_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
132 
GSM694120_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1   ORC_ChIPseq_analysis:DM:1 protocol. *  BEDGRAPH Track Generation:          o Tracks are read into SPP and informative tags are selected using SPP's select.informative.tags function.          o Local sequencing anomalies are removed with SPP's remove.local.tag.anomalies function.          o Input subtracted ChIP density bedgraph track is output with a step size of 100 and a bandwidth of 100 using SPP's get.smoothed.tag.density function. The tags are shifted 1/2 of the optimal shift size discovered with get.binding.characteristics.          o To combine replicates, all the reads were pooled together and the tag shift was estimated as the mean tag shift between the replicates.     * GFF3 Peak Call Generation:          o MAQ files were converted to ELAND using an in-house script.          o The PeakSeq preprocessing scripts were run by an in-house pipeline automation script.          o The PeakSeq v.1.01 C++ code was run with the default parameters and a maximum q-val of .05.          o To combine replicates, overlapping windows of enrichment between the two sets were combined, and the rest were discarded.
133 
GSM520949_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520950 (10.pirrota_142_A3_Input_HD.CEL)
134 
GSM575401_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575402_pirrota_620_B3_Input-18cycles.405.CEL
135 
GSM521003_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521004 (pirrota_620_B3_Input-18cycles.405.CEL)
136 
GSM520775_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520776 (pirrota_208_S12_Input.58.CEL)
137 
GSM521039_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521040 (pirrota_683_A11_Input.452.CEL)
138 
GSM686600_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
139 
GSM520854_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: no input (NA)
140 
GSM621329_1	Detail=.CEL files generated by the scanner are used as Input files in the MAT software to generate the signal files that are used by CisGenome to identify peaks. .bed were generated with MAT then converted to gff format. .wig files are genereted by CisGenome from MAT .bar files.
141 
GSM627407_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
142 
GSM614652_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie. Signal files were generated with the R package SPP. Peaks were called with MACS.
143 
GSM927181_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
144 
GSM520873_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520874 (pirrota_482_B2_Input(14cyc).293.CEL)
145 
GSM521063_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521064 (pirrota_761_A18_Input.531.CEL)
146 
GSM686475_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
147 
GSM570045_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie. Signal files were generated with the R package SPP. Peaks were called with MACS.
148 
GSM569791_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie. Signal files were generated with the R package SPP. Peaks were called with MACS.
149 
GSM499638_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using the Illumina Genome Analyzer Pipeline Software.  Signal files were generated with the R package SPP.  Peaks were called with MACS (parameters: --format=ELAND --gsize=120000000 --tsize=36 --bw=250 --mfold=2 --pvalue=1e-3).
150 
GSM401416_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
151 
GSM627363_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
152 
GSM627374_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
153 
GSM575433_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575434_pirrota_298_S11_Input.143.CEL
154 
GSM627398_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
155 
GSM499643_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using the Illumina Genome Analyzer Pipeline Software.  Signal files were generated with the R package SPP.  Peaks were called with MACS (parameters: --format=ELAND --gsize=120000000 --tsize=36 --bw=250 --mfold=2 --pvalue=1e-3).
156 
GSM499635_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using the Illumina Genome Analyzer Pipeline Software.  Signal files were generated with the R package SPP.  Peaks were called with MACS (parameters: --format=ELAND --gsize=120000000 --tsize=36 --bw=250 --mfold=2 --pvalue=1e-3).
157 
GSM387597_1	Detail=Log base 2 (Cy5/Cy3) ratios were bi-weight mean centered
158 
GSM624884_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
159 
GSM521037_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521038 (pirrota_836_CL8-1_Input_DNA(14cyc).607.CEL)
160 
GSM521100_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521101 (pirrota_196_S9_Input.46.CEL)
161 
GSM847658_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
162 
GSM461193_3	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
163 
GSM927216_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
164 
GSM686739_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
165 
GSM624861_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
166 
GSM624628_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624629_pirrota_915_A17_Input-18cycles.670.CEL
167 
GSM627413_3	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
168 
GSM401421_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
169 
GSM575479_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575480_pirrota_424_B1_Input.250.CEL
170 
GSM881221_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1   ChIPseq analysis BEDGRAPH Generation:DM:1 protocol. BEDGRAPH Track Generation:    * Tracks are read into SPP and informative tags are selected using SPP's select.informative.tags function.    * Local sequencing anomalies are removed with SPP's remove.local.tag.anomalies function.    * Input subtracted ChIP density bedgraph track is output with a step size of 100 and a bandwidth of 100 using SPP's get.smoothed.tag.density function. The tags are shifted 1/2 of the optimal shift size discovered with get.binding.characteristics.    * To combine replicates, all the reads were pooled together and the tag shift was estimated as the mean tag shift between the replicates.
171 
GSM627356_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
172 
GSM686717_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
173 
GSM333846_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
174 
GSM686755_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
175 
GSM847675_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
176 
GSM627337_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
177 
GSM686612_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
178 
GSM401413_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
179 
GSM522360_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1    Processed data are obtained using following parameters: read length is 36   ORC_ChIPseq_analysis:DM:1 protocol. Processing and peaking calling for ORC solexa data.
180 
GSM853469_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
181 
GSM520796_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520797 (pirrota_292_A9_Input.136.CEL)
182 
GSM624876_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
183 
GSM843544_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
184 
GSM627406_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
185 
GSM624892_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen.  Processed data are obtained using following parameters: genome version is R5.27.
186 
GSM575411_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575412_pirrota_916_B4_Input-18cycles.671.CEL
187 
GSM624897_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen.  Processed data are obtained using following parameters: genome version is R5.27.
188 
GSM927223_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
189 
GSM575431_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575432_pirrota_284_Input.137.CEL
190 
GSM520881_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520882 (pirrota_480_Kc-2_Input(14cyc).291.CEL)
191 
GSM628255_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
192 
GSM627388_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
193 
GSM669545_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
194 
GSM575417_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575418_pirrota_620_B3_Input-18cycles.405.CEL
195 
GSM686547_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
196 
GSM927177_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
197 
GSM333866_1	Detail=Log base 2 (Cy5/Cy3) ratios were bi-weight mean centered
198 
GSM927222_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
199 
GSM627395_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
200 
GSM851729_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
201 
GSM461190_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
202 
GSM401410_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
203 
GSM621341_1	Detail=.CEL files generated by the scanner are used as Input files in the MAT software to generate the signal files that are used by CisGenome to identify peaks. .bed were generated with MAT then converted to gff format. .wig files are genereted by CisGenome from MAT .bar files.
204 
GSM627349_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
205 
GSM400672_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
206 
GSM627391_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
207 
GSM627364_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
208 
GSM432594_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
209 
GSM520921_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520922 (pirrota_425_B2_Input.251.CEL)
210 
GSM461192_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
211 
GSM520852_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520853 (pirrota_190_A3_Input.38.CEL)
212 
GSM627353_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
213 
GSM624664_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624665_pirrota_621_B5_Input-18cycles.406.CEL
214 
GSM333850_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
215 
GSM521071_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521072 (pirrota_647_Kc2_Input(20cycles).424.CEL)
216 
GSM853472_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
217 
GSM927194_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
218 
GSM432593_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
219 
GSM624865_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
220 
GSM520818_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520819 (pirrota_264_S13_Input.116.CEL)
221 
GSM575448_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575449_pirrota_835_E_late1_Input_DNA_14cyc.606.CEL
222 
GSM333837_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
223 
GSM400666_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
224 
GSM390066_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to GFF files and .bedgraph files which indicate the number of reads that map to each base in the genome.
225 
GSM333847_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
226 
GSM686751_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
227 
GSM848956_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
228 
GSM686685_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
229 
GSM627335_3	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
230 
GSM432584_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
231 
GSM333868_2	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
232 
GSM686479_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
233 
GSM686776_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
234 
GSM461183_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
235 
GSM594222_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie version 0.12.5. Signal files were generated with the R package version 2.7.1 SPP 1.0. Peaks were called with MACS version 1.3.7.
236 
GSM694129_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1   ChIPseq_analysis:DM:1 protocol. *  BEDGRAPH Track Generation:          o Tracks are read into SPP and informative tags are selected using SPP's select.informative.tags function.          o Local sequencing anomalies are removed with SPP's remove.local.tag.anomalies function.          o Input subtracted ChIP density bedgraph track is output with a step size of 100 and a bandwidth of 100 using SPP's get.smoothed.tag.density function. The tags are shifted 1/2 of the optimal shift size discovered with get.binding.characteristics.          o To combine replicates, all the reads were pooled together and the tag shift was estimated as the mean tag shift between the replicates.     * GFF3 Peak Call Generation:          o MAQ files were converted to ELAND using an in-house script.          o The PeakSeq preprocessing scripts were run by an in-house pipeline automation script.          o The PeakSeq v.1.01 C++ code was run with the default parameters and a maximum q-val of .05.          o To combine replicates, overlapping windows of enrichment between the two sets were combined, and the rest were discarded.
237 
GSM461181_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to GFF files and .bedgraph files which indicate the number of reads that map to each base in the genome.
238 
GSM686782_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
239 
GSM847578_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
240 
GSM636830_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
241 
GSM575419_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575420_pirrota_873_S15_Input-18cycles.644.CEL
242 
GSM401409_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
243 
GSM439443_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
244 
GSM432586_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
245 
GSM624862_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
246 
GSM624885_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen.  Processed data are obtained using following parameters: genome version is R5.27.
247 
GSM621331_1	Detail=.CEL files generated by the scanner are used as Input files in the MAT software to generate the signal files that are used by CisGenome to identify peaks. .bed were generated with MAT then converted to gff format. .wig files are genereted by CisGenome from MAT .bar files.
248 
GSM333859_1	Detail=Log base 2 (Cy5/Cy3) ratios were bi-weight mean centered
249 
GSM390065_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to GFF files and .bedgraph files which indicate the number of reads that map to each base in the genome.
250 
GSM621326_1	Detail=.CEL files generated by the scanner are used as Input files in the MAT software to generate the signal files that are used by CisGenome to identify peaks. .bed were generated with MAT then converted to gff format. .wig files are genereted by CisGenome from MAT .bar files.
251 
GSM686516_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
252 
GSM520885_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520886 (12.pirrota_144_A7_Input_HD.CEL)
253 
GSM439450_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
254 
GSM624652_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624653_pirrota_1088_A21_Input.846.CEL
255 
GSM843545_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
256 
GSM521059_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521060 (pirrota_761_A18_Input.531.CEL)
257 
GSM520802_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520803 (pirrota_292_A9_Input.136.CEL)
258 
GSM575454_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575455_pirrota_935_Eearly2_Input_20cyc.690.CEL
259 
GSM461191_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
260 
GSM694125_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1   ORC_ChIPseq_analysis:DM:1 protocol. *  BEDGRAPH Track Generation:          o Tracks are read into SPP and informative tags are selected using SPP's select.informative.tags function.          o Local sequencing anomalies are removed with SPP's remove.local.tag.anomalies function.          o Input subtracted ChIP density bedgraph track is output with a step size of 100 and a bandwidth of 100 using SPP's get.smoothed.tag.density function. The tags are shifted 1/2 of the optimal shift size discovered with get.binding.characteristics.          o To combine replicates, all the reads were pooled together and the tag shift was estimated as the mean tag shift between the replicates.     * GFF3 Peak Call Generation:          o MAQ files were converted to ELAND using an in-house script.          o The PeakSeq preprocessing scripts were run by an in-house pipeline automation script.          o The PeakSeq v.1.01 C++ code was run with the default parameters and a maximum q-val of .05.          o To combine replicates, overlapping windows of enrichment between the two sets were combined, and the rest were discarded.
261 
GSM927180_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
262 
GSM461185_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
263 
GSM520985_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520986 (pirrota_499_S14_Input18.320.CEL)
264 
GSM575498_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575499_pirrota_600_Kc1_Input_20cycles.389.CEL
265 
GSM621338_1	Detail=.CEL files generated by the scanner are used as Input files in the MAT software to generate the signal files that are used by CisGenome to identify peaks. .bed were generated with MAT then converted to gff format. .wig files are genereted by CisGenome from MAT .bar files.
266 
GSM520830_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520831 (pirrota_480_Kc-2_Input(14cyc).291.CEL)
267 
GSM521090_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521091 (pirrota_641_S12_input_gk2.417.CEL)
268 
GSM627355_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
269 
GSM847657_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
270 
GSM333855_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
271 
GSM624890_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
272 
GSM570051_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie. Signal files were generated with the R package SPP. Peaks were called with MACS.
273 
GSM521088_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521089 (pirrota_803_A14.input.566.CEL)
274 
GSM408992_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
275 
GSM627379_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
276 
GSM627346_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
277 
GSM499640_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using the Illumina Genome Analyzer Pipeline Software.  Signal files were generated with the R package SPP.  Peaks were called with MACS (parameters: --format=ELAND --gsize=120000000 --tsize=36 --bw=250 --mfold=2 --pvalue=1e-3).
278 
GSM627389_3	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
279 
GSM686508_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
280 
GSM621342_1	Detail=.CEL files generated by the scanner are used as Input files in the MAT software to generate the signal files that are used by CisGenome to identify peaks. .bed were generated with MAT then converted to gff format. .wig files are genereted by CisGenome from MAT .bar files.
281 
GSM521035_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521036 (pirrota_837_CL8-2_Input_DNA(14cyc).608.CEL)
282 
GSM575483_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575484_pirrota_825_CL8-1_InputDNA_20cyc.596.CEL
283 
GSM669472_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
284 
GSM461207_3	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
285 
GSM461186_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
286 
GSM942053_1	Detail=Normalization_and_smoothing_of_log2_ratios:DM:1 protocol. Two-color Agilent tiling arrays were processed by Bioconductor primarily with the Ringo package (Toedling et al., 2007, PMID: 17594472).  Briefly, each array was loess normalized and then probe log2 ratios were smoothed by running medians across windows of 10kb along the genome, requiring at least 3 probes within a window.
287 
GSM686745_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
288 
GSM575469_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575470_pirrota_723_OR_Head_Prep3_Input_14cyc.487.CEL
289 
GSM851849_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
290 
GSM686737_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
291 
GSM847773_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
292 
GSM439463_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
293 
GSM686749_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
294 
GSM520913_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520914 (pirrota_424_B1_Input.250.CEL)
295 
GSM333842_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
296 
GSM520832_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520833 (pirrota_479_Kc-1_Input(14cyc).290.CEL)
297 
GSM686510_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
298 
GSM627359_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
299 
GSM499661_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using the Illumina Genome Analyzer Pipeline Software.  Signal files were generated with the R package SPP.  Peaks were called with MACS (parameters: --format=ELAND --gsize=120000000 --tsize=36 --bw=250 --mfold=2 --pvalue=1e-3).
300 
GSM575514_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575515_pirrota_873_S15_Input-18cycles.644.CEL
301 
GSM624869_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
302 
GSM627408_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
303 
GSM686492_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
304 
GSM627335_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
305 
GSM499649_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using the Illumina Genome Analyzer Pipeline Software.  Signal files were generated with the R package SPP.  Peaks were called with MACS (parameters: --format=ELAND --gsize=120000000 --tsize=36 --bw=250 --mfold=2 --pvalue=1e-3).
306 
GSM621327_1	Detail=.CEL files generated by the scanner are used as Input files in the MAT software to generate the signal files that are used by CisGenome to identify peaks. .bed were generated with MAT then converted to gff format. .wig files are genereted by CisGenome from MAT .bar files.
307 
GSM390063_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to GFF files and .bedgraph files which indicate the number of reads that map to each base in the genome.
308 
GSM520919_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520920 (pirrota_424_B1_Input.250.CEL)
309 
GSM461183_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
310 
GSM853485_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
311 
GSM624632_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624633_pirrota_1058_L3_3_Input(20cyc).798.CEL
312 
GSM439459_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
313 
GSM387600_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
314 
GSM686741_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
315 
GSM686691_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
316 
GSM847775_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
317 
GSM927195_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
318 
GSM627365_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
319 
GSM575366_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575367_pirrota_345_E7_Input.173.CEL
320 
GSM461200_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
321 
GSM439445_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
322 
GSM927184_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
323 
GSM432591_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
324 
GSM408982_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
325 
GSM520947_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520948 (pirrota_212_A8_Input.62.CEL)
326 
GSM927175_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
327 
GSM847702_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
328 
GSM499636_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using the Illumina Genome Analyzer Pipeline Software.  Signal files were generated with the R package SPP.  Peaks were called with MACS (parameters: --format=ELAND --gsize=120000000 --tsize=36 --bw=250 --mfold=2 --pvalue=1e-3).
329 
GSM521082_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521083 (pirrota_620_B3_Input-18cycles.405.CEL)
330 
GSM628259_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
331 
GSM847699_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
332 
GSM686719_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
333 
GSM694132_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1   ORC_ChIPseq_analysis:DM:1 protocol. *  BEDGRAPH Track Generation:          o Tracks are read into SPP and informative tags are selected using SPP's select.informative.tags function.          o Local sequencing anomalies are removed with SPP's remove.local.tag.anomalies function.          o Input subtracted ChIP density bedgraph track is output with a step size of 100 and a bandwidth of 100 using SPP's get.smoothed.tag.density function. The tags are shifted 1/2 of the optimal shift size discovered with get.binding.characteristics.          o To combine replicates, all the reads were pooled together and the tag shift was estimated as the mean tag shift between the replicates.     * GFF3 Peak Call Generation:          o MAQ files were converted to ELAND using an in-house script.          o The PeakSeq preprocessing scripts were run by an in-house pipeline automation script.          o The PeakSeq v.1.01 C++ code was run with the default parameters and a maximum q-val of .05.          o To combine replicates, overlapping windows of enrichment between the two sets were combined, and the rest were discarded.
334 
GSM627371_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
335 
GSM520981_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520982 (pirrota_499_S14_Input18.320.CEL)
336 
GSM439442_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
337 
GSM686561_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
338 
GSM621332_1	Detail=.CEL files generated by the scanner are used as Input files in the MAT software to generate the signal files that are used by CisGenome to identify peaks. .bed were generated with MAT then converted to gff format. .wig files are genereted by CisGenome from MAT .bar files.
339 
GSM432579_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
340 
GSM627343_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
341 
GSM461205_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
342 
GSM521043_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521044 (pirrota_602_B5_Input(20cycles).391.CEL)
343 
GSM520915_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520916 (pirrota_196_S9_Input.46.CEL)
344 
GSM521001_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521002 (pirrota_761_A18_Input.531.CEL)
345 
GSM627359_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
346 
GSM624886_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen.  Processed data are obtained using following parameters: genome version is R5.27.
347 
GSM669537_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
348 
GSM521096_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521097 (pirrota_837_CL8-2_Input_DNA(14cyc).608.CEL)
349 
GSM575370_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575371_pirrota_353_E4_Input.181.CEL
350 
GSM439449_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
351 
GSM401415_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
352 
GSM847952_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
353 
GSM627366_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
354 
GSM686711_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
355 
GSM686483_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
356 
GSM575450_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575451_pirrota_263_E3_Input.108.CEL
357 
GSM686679_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
358 
GSM627393_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
359 
GSM387594_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
360 
GSM853473_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
361 
GSM686764_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
362 
GSM520905_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520906 (40.pirrota_182_S8_Input_HD.CEL)
363 
GSM847954_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
364 
GSM621337_1	Detail=.CEL files generated by the scanner are used as Input files in the MAT software to generate the signal files that are used by CisGenome to identify peaks. .bed were generated with MAT then converted to gff format. .wig files are genereted by CisGenome from MAT .bar files.
365 
GSM627383_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
366 
GSM624650_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624651_pirrota_1362_Kc-5_Input.1114.CEL
367 
GSM624872_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
368 
GSM627352_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
369 
GSM461182_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
370 
GSM451813_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using TopHat (http://tophat.cbcb.umd.edu/).  The bed file was generated by thresholding the bedgraph file (tag count>=1; minimum run length=50; maximum gap=50).
371 
GSM927227_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
372 
GSM520917_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520918 (pirrota_242_S12_Input(14_cycles).85.CEL)
373 
GSM847619_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
374 
GSM521084_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521085 (pirrota_646_B3_Input2(20cycles).423.CEL)
375 
GSM333870_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
376 
GSM432581_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
377 
GSM333836_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
378 
GSM569798_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie. Signal files were generated with the R package SPP. Peaks were called with MACS.
379 
GSM686565_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
380 
GSM627414_3	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
381 
GSM461182_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
382 
GSM520869_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520870 (pirrota_499_S14_Input18.320.CEL)
383 
GSM432587_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
384 
GSM686689_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
385 
GSM627415_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
386 
GSM627334_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
387 
GSM847676_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
388 
GSM624672_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624673_pirrota_1089_A20_Input.847.CEL
389 
GSM439446_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
390 
GSM520836_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520837 (pirrota_292_A9_Input.136.CEL)
391 
GSM627385_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
392 
GSM627356_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
393 
GSM627389_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
394 
GSM520903_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520904 (pirrota_208_S12_Input.58.CEL)
395 
GSM594213_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie version 0.12.5. Signal files were generated with the R package version 2.7.1 SPP 1.0. Peaks were called with MACS version 1.3.7.
396 
GSM451809_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using TopHat (http://tophat.cbcb.umd.edu/).  The bed file was generated by thresholding the bedgraph file (tag count>=1; minimum run length=50; maximum gap=50).
397 
GSM686733_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
398 
GSM520871_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520872 (pirrota_481_B1_Input(14cyc).292.CEL)
399 
GSM401424_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
400 
GSM927183_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
401 
GSM927192_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
402 
GSM627343_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
403 
GSM927229_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
404 
GSM627402_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
405 
GSM333867_1	Detail=Log base 2 (Cy5/Cy3) ratios were bi-weight mean centered
406 
GSM461189_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
407 
GSM627412_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
408 
GSM451811_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using TopHat (http://tophat.cbcb.umd.edu/).  The bed file was generated by thresholding the bedgraph file (tag count>=1; minimum run length=50; maximum gap=50).
409 
GSM520782_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520783 (pirrota_540_A12_Input18.362.CEL)
410 
GSM847770_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
411 
GSM333843_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
412 
GSM636832_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
413 
GSM461195_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
414 
GSM575376_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575377_pirrota_731_Larvae_Prep_3_Input_20cyc.495.CEL
415 
GSM927187_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
416 
GSM621340_1	Detail=.CEL files generated by the scanner are used as Input files in the MAT software to generate the signal files that are used by CisGenome to identify peaks. .bed were generated with MAT then converted to gff format. .wig files are genereted by CisGenome from MAT .bar files.
417 
GSM520933_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520934 (pirrota_478_C18-2_Input(14cyc).289.CEL)
418 
GSM627368_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
419 
GSM521075_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: no input (NA)
420 
GSM333851_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
421 
GSM575395_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575396_pirrota_344_E5_Input.172.CEL
422 
GSM521094_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521095 (pirrota_303_S14_Input.148.CEL)
423 
GSM627414_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
424 
GSM627388_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
425 
GSM439440_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
426 
GSM575378_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575379_pirrota_732_Larvae_Prep_4_Input_20cyc.496.CEL
427 
GSM853484_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
428 
GSM853490_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
429 
GSM575488_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575489_pirrota_584_A14_Input_20cycles.373.CEL
430 
GSM627335_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
431 
GSM624636_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624637_pirrota_1040_Kc4_Input(20cyc).814.CEL
432 
GSM851744_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
433 
GSM627339_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
434 
GSM520816_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520817 (pirrota_499_S14_Input18.320.CEL)
435 
GSM520977_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520978 (pirrota_292_A9_Input.136.CEL)
436 
GSM927221_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
437 
GSM624670_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624671_pirrota_499_S14_Input18.320.CEL
438 
GSM439461_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
439 
GSM461208_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
440 
GSM624638_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624639_pirrota_1041_Kc5_Input(20cyc).815.CEL
441 
GSM333861_1	Detail=Log base 2 (Cy5/Cy3) ratios were bi-weight mean centered
442 
GSM927206_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
443 
GSM627362_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
444 
GSM439457_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
445 
GSM847660_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
446 
GSM520777_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520778 (pirrota_303_S14_Input.148.CEL)
447 
GSM575397_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575398_pirrota_999_Elate4_Input_20cyc.738.CEL
448 
GSM575464_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575465_pirrota_721_E10_Input_14cyc.487.CEL
449 
GSM575364_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575365_pirrota_344_E5_Input.172.CEL
450 
GSM333858_1	Detail=Log base 2 (Cy5/Cy3) ratios were bi-weight mean centered
451 
GSM390061_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to GFF files and .bedgraph files which indicate the number of reads that map to each base in the genome.
452 
GSM520867_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520868 (pirrota_298_S11_Input.143.CEL)
453 
GSM853489_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
454 
GSM627367_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
455 
GSM401407_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
456 
GSM627405_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
457 
GSM461199_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
458 
GSM686573_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
459 
GSM521073_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521074 (pirrota_600_Kc1_Input(20cycles).389.CEL)
460 
GSM847698_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
461 
GSM520838_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520839 (pirrota_424_B1_Input.250.CEL)
462 
GSM520850_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520851 (pirrota_242_S12_Input(14_cycles).85.CEL)
463 
GSM461204_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
464 
GSM521057_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521058 (pirrota_760_A17_Input.530.CEL)
465 
GSM624878_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
466 
GSM461196_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
467 
GSM628262_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
468 
GSM520812_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520813 (pirrota_619_A14_Input-18cycles.404.CEL)
469 
GSM669547_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
470 
GSM522359_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1    Processed data are obtained using following parameters: read length is 36   ORC_ChIPseq_analysis:DM:1 protocol. Processing and peaking calling for ORC solexa data.
471 
GSM570054_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie. Signal files were generated with the R package SPP. Peaks were called with MACS.
472 
GSM627375_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
473 
GSM521013_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521014 (pirrota_761_A18_Input.531.CEL)
474 
GSM927203_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
475 
GSM627351_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
476 
GSM847753_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
477 
GSM927199_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
478 
GSM401418_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
479 
GSM627357_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
480 
GSM627384_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
481 
GSM521055_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521056 (pirrota_761_A18_Input.531.CEL)
482 
GSM594225_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie version 0.12.5. Signal files were generated with the R package version 2.7.1 SPP 1.0. Peaks were called with MACS version 1.3.7.
483 
GSM927193_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
484 
GSM575399_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575400_pirrota_916_B4_Input-18cycles.671.CEL
485 
GSM627415_3	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
486 
GSM432589_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
487 
GSM847772_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
488 
GSM627410_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
489 
GSM521011_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521012 (pirrota_760_A17_Input.530.CEL)
490 
GSM520931_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520932 (pirrota_477_C18-1_Input(14cyc).288.CEL)
491 
GSM520844_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520845 (pirrota_242_S12_Input(14_cycles).85.CEL)
492 
GSM520957_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520958 (pirrota_621_B5_Input-18cycles.406.CEL)
493 
GSM333840_1	Detail=Log base 2 (Cy5/Cy3) ratios were bi-weight mean centered
494 
GSM520969_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520970 (pirrota_478_C18-2_Input(14cyc).289.CEL)
495 
GSM627360_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
496 
GSM927230_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
497 
GSM686593_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
498 
GSM520810_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520811 (pirrota_620_B3_Input-18cycles.405.CEL)
499 
GSM627400_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
500 
GSM627387_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
501 
GSM439465_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
502 
GSM627333_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
503 
GSM461207_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
504 
GSM621336_1	Detail=.CEL files generated by the scanner are used as Input files in the MAT software to generate the signal files that are used by CisGenome to identify peaks. .bed were generated with MAT then converted to gff format. .wig files are genereted by CisGenome from MAT .bar files.
505 
GSM521009_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521010 (pirrota_499_S14_Input18.320.CEL)
506 
GSM520814_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520815 (pirrota_499_S14_Input18.320.CEL)
507 
GSM520788_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520789 (pirrota_477_C18-1_Input(14cyc).288.CEL)
508 
GSM569795_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie. Signal files were generated with the R package SPP. Peaks were called with MACS.
509 
GSM400668_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
510 
GSM575423_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575424_pirrota_880_E_late_2_Input.651.CEL
511 
GSM432585_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
512 
GSM847696_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
513 
GSM461206_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
514 
GSM927182_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
515 
GSM627358_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
516 
GSM451812_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using TopHat (http://tophat.cbcb.umd.edu/).  The bed file was generated by thresholding the bedgraph file (tag count>=1; minimum run length=50; maximum gap=50).
517 
GSM627376_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
518 
GSM628251_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
519 
GSM627366_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
520 
GSM408990_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
521 
GSM686536_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
522 
GSM522354_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1    Processed data are obtained using following parameters: read length is 36   ORC_ChIPseq_analysis:DM:1 protocol. Processing and peaking calling for ORC solexa data.
523 
GSM669474_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
524 
GSM461198_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
525 
GSM521019_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521020 (pirrota_277_S12_Input.122.CEL)
526 
GSM624874_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
527 
GSM627349_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
528 
GSM575468_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575465_pirrota_721_E10_Input_14cyc.487.CEL
529 
GSM439454_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
530 
GSM927231_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
531 
GSM686721_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
532 
GSM624863_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
533 
GSM621335_1	Detail=.CEL files generated by the scanner are used as Input files in the MAT software to generate the signal files that are used by CisGenome to identify peaks. .bed were generated with MAT then converted to gff format. .wig files are genereted by CisGenome from MAT .bar files.
534 
GSM451801_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
535 
GSM810644_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
536 
GSM461202_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
537 
GSM401408_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
538 
GSM636838_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
539 
GSM520822_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520823 (pirrota_264_S13_Input.116.CEL)
540 
GSM686494_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
541 
GSM520857_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520858 (pirrota_437_B3_INPUT.253.CEL)
542 
GSM627381_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
543 
GSM686553_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
544 
GSM461205_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
545 
GSM927225_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
546 
GSM627413_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
547 
GSM520911_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520912 (pirrota_425_B2_Input.251.CEL)
548 
GSM520979_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520980 (pirrota_540_A12_Input18.362.CEL)
549 
GSM686538_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
550 
GSM851839_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
551 
GSM881223_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1   ChIPseq analysis BEDGRAPH Generation:DM:1 protocol. BEDGRAPH Track Generation:    * Tracks are read into SPP and informative tags are selected using SPP's select.informative.tags function.    * Local sequencing anomalies are removed with SPP's remove.local.tag.anomalies function.    * Input subtracted ChIP density bedgraph track is output with a step size of 100 and a bandwidth of 100 using SPP's get.smoothed.tag.density function. The tags are shifted 1/2 of the optimal shift size discovered with get.binding.characteristics.    * To combine replicates, all the reads were pooled together and the tag shift was estimated as the mean tag shift between the replicates.
552 
GSM570049_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie. Signal files were generated with the R package SPP. Peaks were called with MACS.
553 
GSM575409_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575410_pirrota_879_E_early_1_Input.650.CEL
554 
GSM851817_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
555 
GSM621334_1	Detail=.CEL files generated by the scanner are used as Input files in the MAT software to generate the signal files that are used by CisGenome to identify peaks. .bed were generated with MAT then converted to gff format. .wig files are genereted by CisGenome from MAT .bar files.
556 
GSM439438_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
557 
GSM499647_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using the Illumina Genome Analyzer Pipeline Software.  Signal files were generated with the R package SPP.  Peaks were called with MACS (parameters: --format=ELAND --gsize=120000000 --tsize=36 --bw=250 --mfold=2 --pvalue=1e-3).
558 
GSM624624_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624625_pirrota_377_LarvaeTrial_Input.193CEL
559 
GSM624680_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624681_pirrota_212_A8_Input.62.CEL
560 
GSM521053_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521054 (pirrota_683_A11_Input.452.CEL)
561 
GSM927207_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
562 
GSM520983_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520984 (pirrota_619_A14_Input-18cycles.404.CEL)
563 
GSM627350_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
564 
GSM451810_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using TopHat (http://tophat.cbcb.umd.edu/).  The bed file was generated by thresholding the bedgraph file (tag count>=1; minimum run length=50; maximum gap=50).
565 
GSM694134_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1   ORC_ChIPseq_analysis:DM:1 protocol. *  BEDGRAPH Track Generation:          o Tracks are read into SPP and informative tags are selected using SPP's select.informative.tags function.          o Local sequencing anomalies are removed with SPP's remove.local.tag.anomalies function.          o Input subtracted ChIP density bedgraph track is output with a step size of 100 and a bandwidth of 100 using SPP's get.smoothed.tag.density function. The tags are shifted 1/2 of the optimal shift size discovered with get.binding.characteristics.          o To combine replicates, all the reads were pooled together and the tag shift was estimated as the mean tag shift between the replicates.     * GFF3 Peak Call Generation:          o MAQ files were converted to ELAND using an in-house script.          o The PeakSeq preprocessing scripts were run by an in-house pipeline automation script.          o The PeakSeq v.1.01 C++ code was run with the default parameters and a maximum q-val of .05.          o To combine replicates, overlapping windows of enrichment between the two sets were combined, and the rest were discarded.
566 
GSM401422_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
567 
GSM627337_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
568 
GSM520961_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520962 (pirrota_365_B2_Input.208.CEL)
569 
GSM333871_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
570 
GSM942057_1	Detail=Normalization_and_smoothing_of_log2_ratios:DM:1 protocol. Two-color Agilent tiling arrays were processed by Bioconductor primarily with the Ringo package (Toedling et al., 2007, PMID: 17594472).  Briefly, each array was loess normalized and then probe log2 ratios were smoothed by running medians across windows of 10kb along the genome, requiring at least 3 probes within a window.
571 
GSM520999_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521000 (pirrota_760_A17_Input.530.CEL)
572 
GSM847707_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
573 
GSM686524_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
574 
GSM627362_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
575 
GSM627373_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
576 
GSM520877_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520878 (pirrota_481_B1_Input(14cyc).292.CEL)
577 
GSM520891_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520892 (pirrota_540_A12_Input18.362.CEL)
578 
GSM624654_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624655_pirrota_1089_A20_Input.847.CEL
579 
GSM927215_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
580 
GSM614655_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie. Signal files were generated with the R package SPP. Peaks were called with MACS.
581 
GSM333839_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
582 
GSM624870_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
583 
GSM387598_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
584 
GSM624895_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen.  Processed data are obtained using following parameters: genome version is R5.27.
585 
GSM520923_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520924 (pirrota_242_S12_Input(14_cycles).85.CEL)
586 
GSM447608_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
587 
GSM520997_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520998 (pirrota_441_A12_INPUT.267.CEL)
588 
GSM621330_1	Detail=.CEL files generated by the scanner are used as Input files in the MAT software to generate the signal files that are used by CisGenome to identify peaks. .bed were generated with MAT then converted to gff format. .wig files are genereted by CisGenome from MAT .bar files.
589 
GSM439456_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
590 
GSM853479_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
591 
GSM624660_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624661_pirrota_1059_L3_6_Input.799.CEL
592 
GSM628268_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
593 
GSM927213_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
594 
GSM624875_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
595 
GSM401419_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
596 
GSM686557_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
597 
GSM686532_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
598 
GSM499637_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using the Illumina Genome Analyzer Pipeline Software.  Signal files were generated with the R package SPP.  Peaks were called with MACS (parameters: --format=ELAND --gsize=120000000 --tsize=36 --bw=250 --mfold=2 --pvalue=1e-3).
599 
GSM387593_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
600 
GSM432590_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
601 
GSM520804_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520805 (pirrota_619_A14_Input-18cycles.404.CEL)
602 
GSM575405_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575406_pirrota_916_B4_Input-18cycles.671.CEL
603 
GSM439441_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
604 
GSM520794_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520795 (pirrota_480_Kc-2_Input(14cyc).291.CEL)
605 
GSM520786_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520787 (pirrota_481_B1_Input(14cyc).292.CEL)
606 
GSM624867_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
607 
GSM499641_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using the Illumina Genome Analyzer Pipeline Software.  Signal files were generated with the R package SPP.  Peaks were called with MACS (parameters: --format=ELAND --gsize=120000000 --tsize=36 --bw=250 --mfold=2 --pvalue=1e-3).
608 
GSM686484_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
609 
GSM520899_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520900 (pirrota_365_B2_Input.208.CEL)
610 
GSM624622_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624623_pirrota_262_E2_Input.107.CEL
611 
GSM461190_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
612 
GSM461202_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
613 
GSM686481_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
614 
GSM520824_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520825 (40.pirrota_182_S8_Input_HD.CEL)
615 
GSM627348_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
616 
GSM521023_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521024 (pirrota_836_CL8-1_Input_DNA(14cyc).607.CEL)
617 
GSM575477_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575478_pirrota_646_B3_Input2_20cycles.423.CEL
618 
GSM627361_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
619 
GSM520842_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520843 (pirrota_190_A3_Input.38.CEL)
620 
GSM847701_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
621 
GSM400658_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
622 
GSM847704_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
623 
GSM575500_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575501_pirrota_646_B3_Input2_20cycles.423.CEL
624 
GSM686735_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
625 
GSM847703_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
626 
GSM927209_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
627 
GSM575372_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575373_pirrota_380_OR_HeadTrial_Input.197.CEL
628 
GSM432588_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
629 
GSM520973_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520974 (pirrota_480_Kc-2_Input(14cyc).291.CEL)
630 
GSM333834_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
631 
GSM669539_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
632 
GSM520943_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520944 (pirrota_292_A9_Input.136.CEL)
633 
GSM521080_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521081 (pirrota_621_B5_Input-18cycles.406.CEL)
634 
GSM627342_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
635 
GSM575456_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575457_pirrota_454_E4_Input.276.CEL
636 
GSM521007_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521008 (pirrota_540_A12_Input18.362.CEL)
637 
GSM451803_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using TopHat (http://tophat.cbcb.umd.edu/).  The bed file was generated by thresholding the wiggle file (tag count>=1; minimum run length=50; maximum gap=50).
638 
GSM927214_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
639 
GSM927173_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
640 
GSM333832_1	Detail=Log base 2 (Cy5/Cy3) ratios were bi-weight mean centered
641 
GSM522357_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1    Processed data are obtained using following parameters: read length is 36   ORC_ChIPseq_analysis:DM:1 protocol. Processing and peaking calling for ORC solexa data.
642 
GSM686579_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
643 
GSM686747_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
644 
GSM847700_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
645 
GSM521027_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521028 (pirrota_837_CL8-2_Input_DNA(14cyc).608.CEL)
646 
GSM333869_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
647 
GSM461194_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
648 
GSM927179_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
649 
GSM627389_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
650 
GSM520820_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520821 (40.pirrota_182_S8_Input_HD.CEL)
651 
GSM520927_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520928 (pirrota_481_B1_Input(14cyc).292.CEL)
652 
GSM401404_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
653 
GSM927186_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
654 
GSM624644_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624645_pirrota_1204_B3_Input.935.CEL
655 
GSM575425_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575426_pirrota_263_E3_Input.108.CEL
656 
GSM401414_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
657 
GSM575494_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575495_pirrota_825_CL8-1_InputDNA_20cyc.596.CEL
658 
GSM686602_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
659 
GSM521005_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521006 (pirrota_621_B5_Input-18cycles.406.CEL)
660 
GSM520887_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520888 (pirrota_208_S12_Input.58.CEL)
661 
GSM400670_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
662 
GSM686540_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
663 
GSM461185_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
664 
GSM853477_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
665 
GSM521025_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521026 (pirrota_837_CL8-2_Input_DNA(14cyc).608.CEL)
666 
GSM401402_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
667 
GSM520840_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520841 (pirrota_425_B2_Input.251.CEL)
668 
GSM400664_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
669 
GSM432578_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
670 
GSM461178_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to GFF files and .bedgraph files which indicate the number of reads that map to each base in the genome.
671 
GSM627354_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
672 
GSM627386_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
673 
GSM669477_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
674 
GSM686512_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
675 
GSM439439_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
676 
GSM627359_3	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
677 
GSM624877_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
678 
GSM521067_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521068 (pirrota_620_B3_Input-18cycles.405.CEL)
679 
GSM881222_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1   ChIPseq analysis BEDGRAPH Generation:DM:1 protocol. BEDGRAPH Track Generation:    * Tracks are read into SPP and informative tags are selected using SPP's select.informative.tags function.    * Local sequencing anomalies are removed with SPP's remove.local.tag.anomalies function.    * Input subtracted ChIP density bedgraph track is output with a step size of 100 and a bandwidth of 100 using SPP's get.smoothed.tag.density function. The tags are shifted 1/2 of the optimal shift size discovered with get.binding.characteristics.    * To combine replicates, all the reads were pooled together and the tag shift was estimated as the mean tag shift between the replicates.
680 
GSM624662_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624663_pirrota_1058_L3_3_Input(20cyc).798.CEL
681 
GSM520951_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520952 (pirrota_212_A8_Input.62.CEL)
682 
GSM927201_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
683 
GSM851707_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
684 
GSM624658_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624659_pirrota_825_CL8-1_InputDNA(20cyc).596.CEL
685 
GSM851705_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
686 
GSM686577_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
687 
GSM520806_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520807 (pirrota_499_S14_Input18.320.CEL)
688 
GSM847576_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
689 
GSM624676_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624677_pirrota_364_B1_Input.207.CEL
690 
GSM627397_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
691 
GSM927168_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
692 
GSM333863_1	Detail=Log base 2 (Cy5/Cy3) ratios were bi-weight mean centered
693 
GSM520883_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520884 (10.pirrota_142_A3_Input_HD.CEL)
694 
GSM853470_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
695 
GSM686715_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
696 
GSM520863_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520864 (pirrota_435_B4_INPUT.255.CEL)
697 
GSM451799_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
698 
GSM927174_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
699 
GSM520879_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520880 (pirrota_479_Kc-1_Input(14cyc).290.CEL)
700 
GSM520846_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520847 (pirrota_425_B2_Input.251.CEL)
701 
GSM520897_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520898 (pirrota_208_S12_Input.58.CEL)
702 
GSM851743_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
703 
GSM927217_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
704 
GSM851840_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
705 
GSM686693_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
706 
GSM686773_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
707 
GSM461184_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
708 
GSM520937_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520938 (pirrota_480_Kc-2_Input(14cyc).291.CEL)
709 
GSM624626_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624627_pirrota_284_Input.137.CEL
710 
GSM575435_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575436_pirrota_303_S14_Input.148.CEL
711 
GSM575512_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575513_pirrota_584_A14_Input_20cycles.373.CEL
712 
GSM575452_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575453_pirrota_880_E_late_2_Input.651.CEL
713 
GSM669541_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
714 
GSM927189_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
715 
GSM686610_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
716 
GSM621128_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie. Signal files were generated with the R package SPP. Peaks were called with MACS.
717 
GSM521104_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521105 (pirrota_365_B2_Input.208.CEL)
718 
GSM333868_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
719 
GSM390060_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to GFF files and .bedgraph files which indicate the number of reads that map to each base in the genome.
720 
GSM453867_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using TopHat (http://tophat.cbcb.umd.edu/).  The bed file was generated by thresholding the bedgraph file (tag count>=1; minimum run length=50; maximum gap=50).
721 
GSM853481_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
722 
GSM847705_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
723 
GSM575473_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575474_pirrota_935_Eearly2_Input_20cyc.690.CEL
724 
GSM461197_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
725 
GSM624860_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
726 
GSM627347_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
727 
GSM927204_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
728 
GSM621130_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie. Signal files were generated with the R package SPP. Peaks were called with MACS.
729 
GSM853482_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
730 
GSM499644_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using the Illumina Genome Analyzer Pipeline Software.  Signal files were generated with the R package SPP.  Peaks were called with MACS (parameters: --format=ELAND --gsize=120000000 --tsize=36 --bw=250 --mfold=2 --pvalue=1e-3).
731 
GSM408984_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
732 
GSM686683_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
733 
GSM461190_3	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
734 
GSM575374_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575375_pirrota_285_Input.138.CEL
735 
GSM408994_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
736 
GSM686530_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
737 
GSM520909_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520910 (pirrota_242_S12_Input(14_cycles).85.CEL)
738 
GSM686506_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
739 
GSM851818_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
740 
GSM927165_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
741 
GSM522353_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1    Processed data are obtained using following parameters: read length is 36   ORC_ChIPseq_analysis:DM:1 protocol. Processing and peaking calling for ORC solexa data.
742 
GSM439455_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
743 
GSM927200_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
744 
GSM627401_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
745 
GSM520993_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520994 (pirrota_437_B3_INPUT.253.CEL)
746 
GSM851841_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
747 
GSM694121_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1   ORC_ChIPseq_analysis:DM:1 protocol. *  BEDGRAPH Track Generation:          o Tracks are read into SPP and informative tags are selected using SPP's select.informative.tags function.          o Local sequencing anomalies are removed with SPP's remove.local.tag.anomalies function.          o Input subtracted ChIP density bedgraph track is output with a step size of 100 and a bandwidth of 100 using SPP's get.smoothed.tag.density function. The tags are shifted 1/2 of the optimal shift size discovered with get.binding.characteristics.          o To combine replicates, all the reads were pooled together and the tag shift was estimated as the mean tag shift between the replicates.     * GFF3 Peak Call Generation:          o MAQ files were converted to ELAND using an in-house script.          o The PeakSeq preprocessing scripts were run by an in-house pipeline automation script.          o The PeakSeq v.1.01 C++ code was run with the default parameters and a maximum q-val of .05.          o To combine replicates, overlapping windows of enrichment between the two sets were combined, and the rest were discarded.
748 
GSM520893_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520894 (40.pirrota_182_S8_Input_HD.CEL)
749 
GSM461201_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
750 
GSM333856_1	Detail=Log base 2 (Cy5/Cy3) ratios were bi-weight mean centered
751 
GSM853476_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
752 
GSM627413_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
753 
GSM627372_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
754 
GSM461204_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
755 
GSM575415_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575416_pirrota_621_B5_Input-18cycles.406.CEL
756 
GSM686731_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
757 
GSM333860_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
758 
GSM461207_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
759 
GSM520959_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520960 (pirrota_436_B5_INPUT.254.CEL)
760 
GSM461188_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
761 
GSM461189_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
762 
GSM853478_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
763 
GSM627376_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
764 
GSM628224_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
765 
GSM520941_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520942 (pirrota_212_A8_Input.62.CEL)
766 
GSM853491_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
767 
GSM927226_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
768 
GSM461199_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
769 
GSM461188_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
770 
GSM851730_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
771 
GSM575441_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575438_pirrota_602_B5_Input_20cycles.391.CEL
772 
GSM624640_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624641_pirrota_825_CL8-1_InputDNA(20cyc).596.CEL
773 
GSM624879_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
774 
GSM333844_1	Detail=Log base 2 (Cy5/Cy3) ratios were bi-weight mean centered
775 
GSM522363_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1    Processed data are obtained using following parameters: read length is 36   ORC_ChIPseq_analysis:DM:1 protocol. Processing and peaking calling for ORC solexa data.
776 
GSM575504_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575505_pirrota_684_A15_Input.453.CEL
777 
GSM847656_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
778 
GSM461180_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to GFF files and .bedgraph files which indicate the number of reads that map to each base in the genome.
779 
GSM461177_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to GFF files and .bedgraph files which indicate the number of reads that map to each base in the genome.
780 
GSM575460_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575461_pirrota_879_E_early_1_Input.650.CEL
781 
GSM575444_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575445_pirrota_584_A14_Input_20cycles.373.CEL
782 
GSM627378_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
783 
GSM594245_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie version 0.12.5. Signal files were generated with the R package version 2.7.1 SPP 1.0. Peaks were called with MACS version 1.3.7.
784 
GSM439452_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
785 
GSM624648_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624649_pirrota_1361_Kc-4_Input.1113.CEL
786 
GSM927198_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
787 
GSM520826_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520827 (pirrota_482_B2_Input(14cyc).293.CEL)
788 
GSM927185_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
789 
GSM686757_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
790 
GSM520895_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520896 (pirrota_303_S14_Input.148.CEL)
791 
GSM401417_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
792 
GSM521045_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521046 (pirrota_646_B3_Input2(20cycles).423.CEL)
793 
GSM847955_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
794 
GSM575486_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575487_pirrota_826_CL8-2_Input_DNA_20cyc.597.CEL
795 
GSM624666_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624667_pirrota_620_B3_Input-18cycles.405.CEL
796 
GSM333835_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
797 
GSM927169_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
798 
GSM520967_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520968 (pirrota_477_C18-1_Input(14cyc).288.CEL)
799 
GSM520963_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520964 (pirrota_264_S13_Input.116.CEL)
800 
GSM686713_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
801 
GSM627370_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
802 
GSM521051_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521052 (pirrota_684_A15_Input.453.CEL)
803 
GSM627400_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
804 
GSM401405_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
805 
GSM927211_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
806 
GSM627383_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
807 
GSM575490_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575491_pirrota_243_S12_Input_20_cycles.86.CEL
808 
GSM461197_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
809 
GSM499633_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using the Illumina Genome Analyzer Pipeline Software.  Signal files were generated with the R package SPP.  Peaks were called with MACS (parameters: --format=ELAND --gsize=120000000 --tsize=36 --bw=250 --mfold=2 --pvalue=1e-3).
810 
GSM521078_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521079 (pirrota_482_B2_Input(14cyc).293.CEL)
811 
GSM439447_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
812 
GSM686784_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
813 
GSM927191_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
814 
GSM499631_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using the Illumina Genome Analyzer Pipeline Software.  Signal files were generated with the R package SPP.  Peaks were called with MACS (parameters: --format=ELAND --gsize=120000000 --tsize=36 --bw=250 --mfold=2 --pvalue=1e-3).
815 
GSM333852_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
816 
GSM520792_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520793 (pirrota_479_Kc-1_Input(14cyc).290.CEL)
817 
GSM333845_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered.  The supplementary file 'GSM333845_gene_expr.txt' contains per-gene processed expression data.
818 
GSM333854_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
819 
GSM628226_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
820 
GSM624656_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624657_pirrota_826_CL8-2_Input_DNA(20cyc).597.CEL
821 
GSM853471_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
822 
GSM627338_3	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
823 
GSM575403_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575404_pirrota_437_B3_INPUT.253.CEL
824 
GSM521106_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521107 (pirrota_436_B5_INPUT.254.CEL)
825 
GSM624864_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
826 
GSM686522_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
827 
GSM520975_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520976 (pirrota_212_A8_Input.62.CEL)
828 
GSM520834_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520835 (pirrota_212_A8_Input.62.CEL)
829 
GSM520889_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520890 (pirrota_619_A14_Input-18cycles.404.CEL)
830 
GSM847697_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
831 
GSM624873_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
832 
GSM927188_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
833 
GSM942058_1	Detail=Normalization_and_smoothing_of_log2_ratios:DM:1 protocol. Two-color Agilent tiling arrays were processed by Bioconductor primarily with the Ringo package (Toedling et al., 2007, PMID: 17594472).  Briefly, each array was loess normalized and then probe log2 ratios were smoothed by running medians across windows of 10kb along the genome, requiring at least 3 probes within a window.
834 
GSM400662_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
835 
GSM686591_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
836 
GSM570040_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie. Signal files were generated with the R package SPP. Peaks were called with MACS.
837 
GSM927167_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
838 
GSM575496_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575497_pirrota_647_Kc2_Input_20cycles.424.CEL
839 
GSM627418_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
840 
GSM847776_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
841 
GSM621343_1	Detail=.CEL files generated by the scanner are used as Input files in the MAT software to generate the signal files that are used by CisGenome to identify peaks. .bed were generated with MAT then converted to gff format. .wig files are genereted by CisGenome from MAT .bar files.
842 
GSM847575_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
843 
GSM624678_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624679_pirrota_365_B2_Input.208.CEL
844 
GSM627394_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
845 
GSM927170_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
846 
GSM624881_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
847 
GSM627401_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
848 
GSM627345_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
849 
GSM520925_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520926 (pirrota_196_S9_Input.46.CEL)
850 
GSM521029_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521030 (pirrota_836_CL8-1_Input_DNA(14cyc).607.CEL)
851 
GSM627418_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
852 
GSM520808_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520809 (pirrota_621_B5_Input-18cycles.406.CEL)
853 
GSM521092_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521093 (pirrota_298_S11_Input.143.CEL)
854 
GSM624682_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624683_pirrota_142_A3_Input_HD.10.CEL
855 
GSM521076_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521077 (pirrota_481_B1_Input(14cyc).292.CEL)
856 
GSM686753_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
857 
GSM627338_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
858 
GSM686559_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
859 
GSM627414_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
860 
GSM847774_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
861 
GSM520971_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520972 (pirrota_479_Kc-1_Input(14cyc).290.CEL)
862 
GSM570043_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie. Signal files were generated with the R package SPP. Peaks were called with MACS.
863 
GSM942056_1	Detail=Normalization_and_smoothing_of_log2_ratios:DM:1 protocol. Two-color Agilent tiling arrays were processed by Bioconductor primarily with the Ringo package (Toedling et al., 2007, PMID: 17594472).  Briefly, each array was loess normalized and then probe log2 ratios were smoothed by running medians across windows of 10kb along the genome, requiring at least 3 probes within a window.
864 
GSM520848_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520849 (pirrota_424_B1_Input.250.CEL)
865 
GSM520859_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520860 (40.pirrota_182_S8_Input_HD.CEL)
866 
GSM461200_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
867 
GSM571140_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie. Signal files were generated with the R package SPP. Peaks were called with MACS.
868 
GSM520995_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520996 (pirrota_499_S14_Input18.320.CEL)
869 
GSM594216_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie version 0.12.5. Signal files were generated with the R package version 2.7.1 SPP 1.0. Peaks were called with MACS version 1.3.7.
870 
GSM686534_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
871 
GSM461209_3	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
872 
GSM927172_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
873 
GSM521047_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521048 (pirrota_684_A15_Input.453.CEL)
874 
GSM499639_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using the Illumina Genome Analyzer Pipeline Software.  Signal files were generated with the R package SPP.  Peaks were called with MACS (parameters: --format=ELAND --gsize=120000000 --tsize=36 --bw=250 --mfold=2 --pvalue=1e-3).
875 
GSM461186_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
876 
GSM522356_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1    Processed data are obtained using following parameters: read length is 36   ORC_ChIPseq_analysis:DM:1 protocol. Processing and peaking calling for ORC solexa data.
877 
GSM927196_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
878 
GSM927166_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
879 
GSM627363_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
880 
GSM401411_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
881 
GSM627377_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
882 
GSM627338_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
883 
GSM520953_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520954 (pirrota_292_A9_Input.136.CEL)
884 
GSM627348_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
885 
GSM621134_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie. Signal files were generated with the R package SPP. Peaks were called with MACS.
886 
GSM853486_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
887 
GSM461195_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
888 
GSM432582_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
889 
GSM686687_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
890 
GSM520907_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520908 (pirrota_190_A3_Input.38.CEL)
891 
GSM627399_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
892 
GSM499653_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using the Illumina Genome Analyzer Pipeline Software.  Signal files were generated with the R package SPP.  Peaks were called with MACS (parameters: --format=ELAND --gsize=120000000 --tsize=36 --bw=250 --mfold=2 --pvalue=1e-3).
893 
GSM624630_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624631_pirrota_873_S15_Input-18cycles.644.CEL
894 
GSM627412_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
895 
GSM624883_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
896 
GSM521021_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521022 (pirrota_540_A12_Input18.362.CEL)
897 
GSM881217_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1   ChIPseq analysis BEDGRAPH Generation:DM:1 protocol. BEDGRAPH Track Generation:    * Tracks are read into SPP and informative tags are selected using SPP's select.informative.tags function.    * Local sequencing anomalies are removed with SPP's remove.local.tag.anomalies function.    * Input subtracted ChIP density bedgraph track is output with a step size of 100 and a bandwidth of 100 using SPP's get.smoothed.tag.density function. The tags are shifted 1/2 of the optimal shift size discovered with get.binding.characteristics.    * To combine replicates, all the reads were pooled together and the tag shift was estimated as the mean tag shift between the replicates.
898 
GSM333864_1	Detail=Log base 2 (Cy5/Cy3) ratios were bi-weight mean centered
899 
GSM575439_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575440_pirrota_646_B3_Input2_20cycles.423.CEL
900 
GSM439448_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
901 
GSM575442_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575443_pirrota_967_A18_Input_20cyc.728.CEL
902 
GSM439458_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
903 
GSM575502_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575503_pirrota_602_B5_Input_20cycles.391.CEL
904 
GSM853483_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
905 
GSM686518_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
906 
GSM927219_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
907 
GSM624642_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624643_pirrota_826_CL8-2_Input_DNA(20cyc).597.CEL
908 
GSM627391_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
909 
GSM927234_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
910 
GSM461192_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
911 
GSM439453_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
912 
GSM627390_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
913 
GSM624859_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
914 
GSM927228_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
915 
GSM686571_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
916 
GSM520779_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: no input (NA)
917 
GSM499642_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using the Illumina Genome Analyzer Pipeline Software.  Signal files were generated with the R package SPP.  Peaks were called with MACS (parameters: --format=ELAND --gsize=120000000 --tsize=36 --bw=250 --mfold=2 --pvalue=1e-3).
918 
GSM627416_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
919 
GSM575516_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575517_pirrota_499_S14_Input18.320.CEL
920 
GSM686486_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
921 
GSM627404_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
922 
GSM461198_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
923 
GSM624871_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
924 
GSM575421_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575422_pirrota_540_A12_Input18.362.CEL
925 
GSM624896_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen.  Processed data are obtained using following parameters: genome version is R5.27.
926 
GSM847577_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
927 
GSM400674_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
928 
GSM686528_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
929 
GSM439460_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
930 
GSM851848_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
931 
GSM400660_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
932 
GSM686473_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
933 
GSM624889_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
934 
GSM686541_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
935 
GSM575388_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575389_pirrota_363_E6_Input.206.CEL
936 
GSM847767_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
937 
GSM686681_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
938 
GSM520901_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520902 (pirrota_437_B3_INPUT.253.CEL)
939 
GSM461193_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
940 
GSM627390_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
941 
GSM628264_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
942 
GSM461203_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
943 
GSM569793_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie. Signal files were generated with the R package SPP. Peaks were called with MACS.
944 
GSM520798_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520799 (pirrota_212_A8_Input.62.CEL)
945 
GSM686488_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
946 
GSM627403_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
947 
GSM521098_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521099 (pirrota_836_CL8-1_Input_DNA(14cyc).607.CEL)
948 
GSM521065_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521066 (pirrota_760_A17_Input.530.CEL)
949 
GSM624866_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen. Processed data are obtained using following parameters: genome version is R5.27.
950 
GSM627409_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
951 
GSM461201_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
952 
GSM686526_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
953 
GSM621132_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie. Signal files were generated with the R package SPP. Peaks were called with MACS.
954 
GSM522362_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1    Processed data are obtained using following parameters: read length is 36   ORC_ChIPseq_analysis:DM:1 protocol. Processing and peaking calling for ORC solexa data.
955 
GSM333841_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
956 
GSM520991_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520992 (pirrota_435_B4_INPUT.255.CEL)
957 
GSM686604_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
958 
GSM401423_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
959 
GSM401406_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
960 
GSM575492_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575493_pirrota_826_CL8-2_Input_DNA_20cyc.597.CEL
961 
GSM847769_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
962 
GSM927205_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
963 
GSM401403_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
964 
GSM927218_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
965 
GSM575471_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575472_pirrota_724_OR_Head_prep4_Input_14cyc.488.CEL
966 
GSM847953_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
967 
GSM439444_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome, and the fragment count at any given position (10-bp resolution) was estimated as the number of uniquely aligned reads oriented towards it and within 300 bp. Enriched intervals were identified by comparison of the mean fragment count in 1-kb windows against a sample-specific expected distribution estimated by randomization (H3K4me3, H3K27me3), or using a supervised Hidden Markov Model (H3K36me3, H3K9me3, H4K20me3).
968 
GSM627340_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
969 
GSM521069_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521070 (pirrota_621_B5_Input-18cycles.406.CEL)
970 
GSM461196_2	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
971 
GSM575413_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575414_pirrota_621_B5_Input-18cycles.406.CEL
972 
GSM847768_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
973 
GSM520965_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520966 (pirrota_298_S11_Input.143.CEL)
974 
GSM333853_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
975 
GSM686490_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
976 
GSM627402_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
977 
GSM575407_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575408_pirrota_935_Eearly2_Input_20cyc.690.CEL
978 
GSM575481_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575482_pirrota_425_B2_Input.251.CEL
979 
GSM624891_1	Detail=NimbleGen Scaling protocol. The log2-ratio ratio of intensity from sample/reference channel was scaled to center the ratio data around zero by subtracting the bi-weight mean for the log2-ratio values for all features on the array from each log2-ratio value. This was performed using NimbleScan software according to the NimbleScan v2.4 User's Guide and chapter 6 of the NimbleGen Arrays User's Guide ChIP-chip Analysis (version 3.1, 27 May 2008) at Roche NimbleGen.  Processed data are obtained using following parameters: genome version is R5.27.
980 
GSM461194_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
981 
GSM669694_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
982 
GSM575458_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575459_pirrota_262_E2_Input.107.CEL
983 
GSM387595_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
984 
GSM520945_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520946 (pirrota_212_A8_Input.62.CEL)
985 
GSM520855_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520856 (pirrota_436_B5_INPUT.254.CEL)
986 
GSM520784_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520785 (pirrota_482_B2_Input(14cyc).293.CEL)
987 
GSM520865_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520866 (pirrota_437_B3_INPUT.253.CEL)
988 
GSM627415_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
989 
GSM927220_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
990 
GSM521049_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM521050 (pirrota_683_A11_Input.452.CEL)
991 
GSM575506_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575507_pirrota_683_A11_Input.452.CEL
992 
GSM575429_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575430_pirrota_964_Larvae_Prep5_Input_14cyc.725.CEL
993 
GSM927190_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
994 
GSM627344_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
995 
GSM881219_1	Detail=Illumina_seq_maq_processing:DM:1 protocol. Using the MAQ command-line tool v.0.7.1, reads are converted from Illumina FASTQ to Sanger FASTQ to Binary FASTQ. The Drosophila genome v.5.1 is then converted into binary fasta format. Then the reads are mapped back to the Drosophila genome using maq 0.7.1 with a maximum of 3 mismatches per read and a mapview file is created which is then read into a local relational database.  Processed data are obtained using following parameters: genome version is 5.1   ChIPseq analysis BEDGRAPH Generation:DM:1 protocol. BEDGRAPH Track Generation:    * Tracks are read into SPP and informative tags are selected using SPP's select.informative.tags function.    * Local sequencing anomalies are removed with SPP's remove.local.tag.anomalies function.    * Input subtracted ChIP density bedgraph track is output with a step size of 100 and a bandwidth of 100 using SPP's get.smoothed.tag.density function. The tags are shifted 1/2 of the optimal shift size discovered with get.binding.characteristics.    * To combine replicates, all the reads were pooled together and the tag shift was estimated as the mean tag shift between the replicates.
996 
GSM853475_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
997 
GSM627341_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
998 
GSM575462_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575463_pirrota_722_E11_Input_14cyc.486.CEL
999 
GSM333848_1	Detail=Log base 2 (Cy3/Cy5) ratios were bi-weight mean centered
1000 
GSM499651_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using the Illumina Genome Analyzer Pipeline Software.  Signal files were generated with the R package SPP.  Peaks were called with MACS (parameters: --format=ELAND --gsize=120000000 --tsize=36 --bw=250 --mfold=2 --pvalue=1e-3).
1001 
GSM927178_1	Library strategy=RIP-Seq; Base calling and demultiplexing was performed using CASAVA 1.8.; Alignments were performed using TopHat version 1.4.0 with the following parameters=-p 8 -G ginormous.100806.gtf --no-novel-juncs -a 6 -m 2 --min-intron-length 28 -I 200000 -F 0 -g 1 --library-type fr-unstranded --transcriptome-index ginormous_transcriptome -x 60 -n 2. Ginormous refers to the annotation published in Graveley, B.R., Brooks, A.N., Carlson, J.W., Duff, M.O., Landolin, J.M., Yang, L., Artieri, C.G., van Baren, M.J., Boley, N., Booth, B.W., et al. (2011). The developmental transcriptome of Drosophila melanogaster. Nature 471, 473–479 (PMID 21179090).; bedGraph files were generated from bam files using bedTools with the following parameters=genomeCoverageBed -bg -split; Genome_build=Dm3; Supplementary_files_format_and_content=Genome browser files are presented in bedGraph format.
1002 
GSM851842_1	Detail=Reads were aligned to the flybase BDGPv5 reference genome using Bowtie 0.12.5. Signal files were generated with the R 2.7.1 package SPP 2.7.1. Peaks were called with MACS 1.3.7.
1003 
GSM627350_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
1004 
GSM624634_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624635_pirrota_1059_L3_6_Input.799.CEL
1005 
GSM520780_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.   input sample: GSM520781 (pirrota_499_S14_Input18.320.CEL)
1006 
GSM624668_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM624669_pirrota_298_S11_Input.143.CEL
1007 
GSM627369_1	Detail=Reads were aligned to the reference genome and a splice junction database to identify uniquely mapping reads and the data converted to SAM files and .bedgraph files which indicate the number of reads that map to each base in the genome.
1008 
GSM575390_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575389_pirrota_363_E6_Input.206.CEL
1009 
GSM686563_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.
1010 
GSM575427_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575428_pirrota_377_LarvaeTrial_Input.193.CEL
1011 
GSM575485_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.  input: GSM575484_pirrota_825_CL8-1_InputDNA_20cyc.596.CEL
1012 
GSM686549_1	Detail=M-value normalization protocol. The log-intensity ratio values (M-values) are calculated for all perfect match (PM) probes as log2(ChIP intensity) - log2(input intensity). The M values are then shifted so that the mean is equal to 0.