QC Report

	general
Report generated at	2021-11-17 01:28:15
Title	ENCSR042RUW-1
Description	No description
Pipeline version	v1.10.0
Pipeline type	atac
Genome	hg38
Aligner	bowtie2
Sequencing endedness	{'rep1': {'paired_end': True}}
Peak caller	macs2

Alignment quality metrics

Fragment length statistics (filtered/deduped BAM)

	rep1
Fraction of reads in NFR	0.6476269563156243
Fraction of reads in NFR (QC pass)	True
Fraction of reads in NFR (QC reason)	OK
NFR / mono-nuc reads	2.670641439900405
NFR / mono-nuc reads (QC pass)	True
NFR / mono-nuc reads (QC reason)	OK
Presence of NFR peak	True
Presence of Mono-Nuc peak	True
Presence of Di-Nuc peak	True

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.

NFR: Nucleosome free region

Sequence quality metrics (filtered/deduped BAM)

Open chromatin assays are known to have significant GC bias. Please take this into consideration as necessary.

Annotated genomic region enrichment

	rep1
Fraction of Reads in universal DHS regions	0.5635601838112645
Fraction of Reads in blacklist regions	0.008347083485508252
Fraction of Reads in promoter regions	0.3014414429769826
Fraction of Reads in enhancer regions	0.32059512546338037

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.

Replication quality metrics

Number of raw peaks

	rep1
Number of peaks	298964

Top 300000 raw peaks from macs2 with p-val threshold 0.01

Peak calling statistics

Peak region size

	rep1
Min size	150.0
25 percentile	303.0
50 percentile (median)	569.0
75 percentile	929.0
Max size	4219.0
Mean	672.4773016149102

Enrichment / Signal-to-noise ratio

Jensen-Shannon distance (filtered/deduped BAM)

	rep1
AUC	0.15038184671683788
Synthetic AUC	0.4977321282670473
X-intercept	0.1204555041753883
Synthetic X-intercept	0.0
Elbow Point	0.8561175386300888
Synthetic Elbow Point	0.4997051115097251
Synthetic JS Distance	0.5408656213097441

Peak enrichment

Fraction of reads in peaks (FRiP)

FRiP for macs2 raw peaks

	rep1
Fraction of Reads in Peaks	0.4994109095292678

For macs2 raw peaks:

repX: Peak from true replicate X
repX-prY: Peak from Yth pseudoreplicates from replicate X
pooled: Peak from pooled true replicates (pool of rep1, rep2, ...)
pooled-pr1: Peak from 1st pooled pseudo replicate (pool of rep1-pr1, rep2-pr1, ...)
pooled-pr2: Peak from 2nd pooled pseudo replicate (pool of rep1-pr2, rep2-pr2, ...)

For overlap/IDR peaks:

repX_vs_repY: Comparing two peaks from true replicates X and Y
repX-pr1_vs_repX-pr2: Comparing two peaks from both pseudoreplicates from replicate X
pooled-pr1_vs_pooled-pr2: Comparing two peaks from 1st and 2nd pooled pseudo replicates