NRF (non redundant fraction)
PBC1 (PCR Bottleneck coefficient 1)
PBC2 (PCR Bottleneck coefficient 2)
PBC1 is the primary measure. Provisionally
0-0.5 is severe bottlenecking
0.5-0.8 is moderate bottlenecking
0.8-0.9 is mild bottlenecking
0.9-1.0 is no bottlenecking
Flagstat (filtered/deduped BAM)
Filtered and duplicates removed
rep1 (PE)
Total
181947240
Total(QC-failed)
0
Dupes
0
Dupes(QC-failed)
0
Mapped
181947240
Mapped(QC-failed)
0
% Mapped
100.0000
Paired
181947240
Paired(QC-failed)
0
Read1
90973620
Read1(QC-failed)
0
Read2
90973620
Read2(QC-failed)
0
Properly Paired
181947240
Properly Paired(QC-failed)
0
% Properly Paired
100.0000
With itself
181947240
With itself(QC-failed)
0
Singletons
0
Singletons(QC-failed)
0
% Singleton
0.0000
Diff. Chroms
0
Diff. Chroms (QC-failed)
0
Peak calling
IDR (Irreproducible Discovery Rate) plots
rep1-pr
Reproducibility QC and peak detection statistics
The number of peaks is capped at 300K for peak-caller MACS2
overlap
IDR
Nt
0
0
N1
235273
164086
Np
0
0
N optimal
235273
164086
N conservative
235273
164086
Optimal Set
rep1-pr
rep1-pr
Conservative Set
rep1-pr
rep1-pr
Rescue Ratio
0.0000
0.0000
Self Consistency Ratio
1.0000
1.0000
Reproducibility
pass
pass
Overlapping peaks
N1: Replicate 1 self-consistent overlapping peaks (comparing two pseudoreplicates generated by subsampling Rep1 reads)
N2: Replicate 2 self-consistent overlapping peaks (comparing two pseudoreplicates generated by subsampling Rep2 reads)
Nt: True Replicate consisten overlapping peaks (comparing true replicates Rep1 vs Rep2 )
Np: Pooled-pseudoreplicate consistent overlapping peaks (comparing two pseudoreplicates generated by subsampling pooled reads from Rep1 and Rep2 )
Self-consistency Ratio: max(N1,N2) / min (N1,N2)
Rescue Ratio: max(Np,Nt) / min (Np,Nt)
Reproducibility Test: If Self-consistency Ratio >2 AND Rescue Ratio > 2, then 'Fail' else 'Pass'
IDR (Irreproducible Discovery Rate) peaks
N1: Replicate 1 self-consistent IDR 0.05 peaks (comparing two pseudoreplicates generated by subsampling Rep1 reads)
N2: Replicate 2 self-consistent IDR 0.05 peaks (comparing two pseudoreplicates generated by subsampling Rep2 reads)
Nt: True Replicate consistent IDR 0.05 peaks (comparing true replicates Rep1 vs Rep2 )
Np: Pooled-pseudoreplicate consistent IDR 0.05 peaks (comparing two pseudoreplicates generated by subsampling pooled reads from Rep1 and Rep2 )
Self-consistency Ratio: max(N1,N2) / min (N1,N2)
Rescue Ratio: max(Np,Nt) / min (Np,Nt)
Reproducibility Test: If Self-consistency Ratio >2 AND Rescue Ratio > 2, then 'Fail' else 'Pass'
Enrichment
Strand cross-correlation measures
Performed on subsampled reads (25M)
rep1
Reads
25000000
Est. Fragment Len.
0
Corr. Est. Fragment Len.
0.4141
Phantom Peak
150
Corr. Phantom Peak
0.2960
Argmin. Corr.
1500
Min. Corr.
0.2202
NSC
1.8808
RSC
2.5569
NOTE1: For SE datasets, reads from replicates are randomly subsampled.
NOTE2: For PE datasets, the first end of each read-pair is selected and the reads are then randomly subsampled.
Normalized strand cross-correlation coefficient (NSC) = col9 in outFile
Relative strand cross-correlation coefficient (RSC) = col10 in outFile
Estimated fragment length = col3 in outFile, take the top value
rep1
Fraction of reads in overlapping peaks
rep1-pr
Fraction of Reads in Peak
0.3456
ppr: Overlapping peaks comparing pooled pseudo replicates
rep1-pr: Overlapping peaks comparing pseudoreplicates from replicate 1
rep2-pr: Overlapping peaks comparing pseudoreplicates from replicate 2
repi-repj: Overlapping peaks comparing true replicates (rep i vs. rep j)
Fraction of reads in IDR peaks
rep1-pr
Fraction of Reads in Peak
0.3111
ppr: IDR peaks comparing pooled pseudo replicates
rep1-pr: IDR peaks comparing pseudoreplicates from replicate 1
rep2-pr: IDR peaks comparing pseudoreplicates from replicate 2
repi-repj: IDR peaks comparing true replicates (rep i vs. rep j)
ATAQC
Summary table
rep1
Genome
male.hg19.fa.gz
Paired/single-ended
Paired-ended
Read length
N/A
Read count from sequencer
311719018
Read count successfully aligned
310014391
Read count after filtering for mapping quality
250101975
Read count after removing duplicate reads
217164043
Read count after removing mitochondrial reads (final read count)
181947240
Mapping quality > q30 (out of total)
250101975, 0.802331460572
Duplicates (after filtering)
32937932, 0.265818
Mitochondrial reads (out of total)
44810469, 0.144543189932
Duplicates that are mitochondrial (out of all dups)
21548396, 0.32710608547
Final reads (after all filters)
181947240, 0.583689892158
NRF = Distinct/Total
0.807765, OK
PBC1 = OnePair/Distinct
0.815898, OK
PBC2 = OnePair/TwoPair
5.590336, OK
Picard est library size
226216601
Fraction of reads in nfr
0.219481698683, out of range [0.4, inf]
Nfr / mono-nuc reads
0.539054088211, out of range [2.5, inf]
Presence of nfr peak
OK
Presence of mono-nuc peak
OK
Presence of di-nuc peak
OK
Naive overlap peaks
235273, OK
Idr peaks
164086, OK
Naive peak stats: min size
150.0000
Naive peak stats: 25 percentile
559.0000
Naive peak stats: 50 percentile (median)
865.0000
Naive peak stats: 75 percentile
1302.0000
Naive peak stats: max size
4184.0000
Naive peak stats: mean
977.5521
Idr peak stats: min size
150.0000
Idr peak stats: 25 percentile
703.0000
Idr peak stats: 50 percentile (median)
1032.0000
Idr peak stats: 75 percentile
1472.0000
Idr peak stats: max size
4184.0000
Idr peak stats: mean
1124.7453
Fraction of reads in universal dhs regions
73832037, 0.410445297234
Fraction of reads in blacklist regions
318842, 0.00177249883355
Fraction of reads in promoter regions
38541096, 0.214256740654
Fraction of reads in enhancer regions
57279136, 0.318424805222
Fraction of reads in called peak regions
55955409, 0.311065973689
Replicate 1
Sample Information
Sample
Genome
male.hg19.fa.gz
Paired/Single-ended
Paired-ended
Read length
N/A
Summary
Read count from sequencer
311,719,018
Read count successfully aligned
310,014,391
Read count after filtering for mapping quality
250,101,975
Read count after removing duplicate reads
217,164,043
Read count after removing mitochondrial reads (final read count)
181,947,240
Note that all these read counts are determined using 'samtools view' - as such,
these are all reads found in the file, whether one end of a pair or a single
end read. In other words, if your file is paired end, then you should divide
these counts by two. Each step follows the previous step; for example, the
duplicate reads were removed after reads were removed for low mapping quality.
This bar chart also shows the filtering process and where the reads were lost
over the process. Note that each step is sequential - as such, there may
have been more mitochondrial reads which were already filtered because of
high duplication or low mapping quality. Note that all these read counts are
determined using 'samtools view' - as such, these are all reads found in
the file, whether one end of a pair or a single end read. In other words,
if your file is paired end, then you should divide these counts by two.
Filtering statistics
Mapping quality > q30 (out of total)
250,101,975
0.802
Duplicates (after filtering)
32,937,932
0.266
Mitochondrial reads (out of total)
44,810,469
0.145
Duplicates that are mitochondrial (out of all dups)
21,548,396
0.327
Final reads (after all filters)
181,947,240
0.584
Mapping quality refers to the quality of the read being aligned to that
particular location in the genome. A standard quality score is > 30.
Duplications are often due to PCR duplication rather than two unique reads
mapping to the same location. High duplication is an indication of poor
libraries. Mitochondrial reads are often high in chromatin accessibility
assays because the mitochondrial genome is very open. A high mitochondrial
fraction is an indication of poor libraries. Based on prior experience, a
final read fraction above 0.70 is a good library.
Library complexity statistics
ENCODE library complexity metrics
Metric
Result
NRF
0.807765 - OK
PBC1
0.815898 - OK
PBC2
5.590336 - OK
The non-redundant fraction (NRF) is the fraction of non-redundant mapped reads
in a dataset; it is the ratio between the number of positions in the genome
that uniquely mapped reads map to and the total number of uniquely mappable
reads. The NRF should be > 0.8. The PBC1 is the ratio of genomic locations
with EXACTLY one read pair over the genomic locations with AT LEAST one read
pair. PBC1 is the primary measure, and the PBC1 should be close to 1.
Provisionally 0-0.5 is severe bottlenecking, 0.5-0.8 is moderate bottlenecking,
0.8-0.9 is mild bottlenecking, and 0.9-1.0 is no bottlenecking. The PBC2 is
the ratio of genomic locations with EXACTLY one read pair over the genomic
locations with EXACTLY two read pairs. The PBC2 should be significantly
greater than 1.
Picard EstimateLibraryComplexity
226,216,601
Yield prediction
Preseq performs a yield prediction by subsampling the reads, calculating the
number of distinct reads, and then extrapolating out to see where the
expected number of distinct reads no longer increases. The confidence interval
gives a gauge as to the validity of the yield predictions.
Fragment length statistics
Metric
Result
Fraction of reads in NFR
0.219481698683 out of range [0.4, inf]
NFR / mono-nuc reads
0.539054088211 out of range [2.5, inf]
Presence of NFR peak
OK
Presence of Mono-Nuc peak
OK
Presence of Di-Nuc peak
OK
Open chromatin assays show distinct fragment length enrichments, as the cut
sites are only in open chromatin and not in nucleosomes. As such, peaks
representing different n-nucleosomal (ex mono-nucleosomal, di-nucleosomal)
fragment lengths will arise. Good libraries will show these peaks in a
fragment length distribution and will show specific peak ratios.
Peak statistics
Metric
Result
Naive overlap peaks
235273 - OK
IDR peaks
164086 - OK
Naive overlap peak file statistics
Min size
150.0
25 percentile
559.0
50 percentile (median)
865.0
75 percentile
1302.0
Max size
4184.0
Mean
977.552107552
IDR peak file statistics
Min size
150.0
25 percentile
703.0
50 percentile (median)
1032.0
75 percentile
1472.0
Max size
4184.0
Mean
1124.74526773
For a good ATAC-seq experiment in human, you expect to get 100k-200k peaks
for a specific cell type.
Annotation-based quality metrics
Annotated genomic region enrichments
Fraction of reads in universal DHS regions
73,832,037
0.410
Fraction of reads in blacklist regions
318,842
0.002
Fraction of reads in promoter regions
38,541,096
0.214
Fraction of reads in enhancer regions
57,279,136
0.318
Fraction of reads in called peak regions
55,955,409
0.311
Signal to noise can be assessed by considering whether reads are falling into
known open regions (such as DHS regions) or not. A high fraction of reads
should fall into the universal (across cell type) DHS set. A small fraction
should fall into the blacklist regions. A high set (though not all) should
fall into the promoter regions. A high set (though not all) should fall into
the enhancer regions. The promoter regions should not take up all reads, as
it is known that there is a bias for promoters in open chromatin assays.
Comparison to Roadmap DNase
This bar chart shows the correlation between the Roadmap DNase samples to
your sample, when the signal in the universal DNase peak region sets are
compared. The closer the sample is in signal distribution in the regions
to your sample, the higher the correlation.
