Schema for T2T Encode - T2T Encode Reanalysis
  Database: hs1    Primary Table: hub_3671779_T2T_Encode_Peaks_Caco-2.H3K4me1 Data last updated: 2022-04-26
Big Bed File Download: /gbdb/hs1/encode/peaks/Caco-2.H3K4me1.chm13v2.0.bb
Item Count: 112,420
The data is stored in the binary BigBed format.

Format description: Browser Extensible Data
fieldexampledescription
chromchr1Reference sequence chromosome or scaffold
chromStart165818141Start position in chromosome
chromEnd165818719End position in chromosome
namemacs2/ENCSR061UOM.CHM13.v2.0_peak_5855Name of item.
score53Score (0-1000)
strand.+ or - for strand
field82.76496Undocumented field
field97.24069Undocumented field
field105.37030Undocumented field
field11244Undocumented field

Sample Rows
 
chromchromStartchromEndnamescorestrandfield8field9field10field11
chr1165818141165818719macs2/ENCSR061UOM.CHM13.v2.0_peak_585553.2.764967.240695.37030244
chr1165836401165836794macs2/ENCSR061UOM.CHM13.v2.0_peak_585621.1.806923.718002.1676391
chr1166183913166184611macs2/ENCSR061UOM.CHM13.v2.0_peak_585737.2.059135.514643.78805618
chr1166185942166187561macs2/ENCSR061UOM.CHM13.v2.0_peak_5858128.2.9084415.2414612.86748911
chr1166187912166190449macs2/ENCSR061UOM.CHM13.v2.0_peak_5859132.3.4984715.6015113.207781257
chr1166220559166221412macs2/ENCSR061UOM.CHM13.v2.0_peak_586058.2.531207.768375.86008576
chr1166246852166247369macs2/ENCSR061UOM.CHM13.v2.0_peak_586118.1.947383.412381.8951166
chr1166270993166272089macs2/ENCSR061UOM.CHM13.v2.0_peak_5862115.3.4767513.8385311.54305363
chr1166273012166273302macs2/ENCSR061UOM.CHM13.v2.0_peak_586325.2.091634.124732.53018202
chr1166297962166298943macs2/ENCSR061UOM.CHM13.v2.0_peak_5864122.3.0752714.5483912.21188253

Caco-2 H3K4me1 (hub_3671779_T2T_Encode_Peaks_Caco-2_H3K4me1) Track Description
 

Description

These tracks represent a reanalysis of ENCODE data against the T2T chm13 genome. All ChIP-seq experiments with pair-end data and read lengths of 100bp or greater are included.

Track types include:

  • Coverage pileups of mapped and filtered reads
  • Enrichment of mapped reads relative to a control
  • ChIP-seq peaks as called by MACS2
  • ChIP-seq peaks as called by MACS2 in GRCh38 and lifted over to chm13

Methods

Prior to mapping, reads originating from a single library were combined. Reads were mapped with Bowtie2 (v2.4.1) as paired-end with the arguments "--no-discordant --no-mixed --very-sensitive --no-unal --omit-sec-seq --xeq --reorder". Alignments were filtered using SAMtools (v1.10) using the arguments "-F 1804 -f 2 -q 2" to remove unmapped or single end mapped reads and those with a mapping quality score less than 2. PCR duplicates were identified and removed with the Picard tools "mark duplicates" command (v2.22.1) and the arguments "VALIDATION_STRINGENCY=LENIENT ASSUME_SORT_ORDER=queryname REMOVE_DUPLICATES = true".

Alignments were then filtered for the presence of unique k-mers. Specifically, for each alignment, reference sequences aligned with template ends were compared to a database of minimum unique k-mer lengths. The size of the k-mers in the k-mer filtering step are dependent on the length of the mapped reference sequence. Alignments were discarded if no unique k-mers occurred in either end of the read. The minimum unique k-mer length database was generated using scripts found here. Alignments from replicates were then pooled.

Bigwig coverage tracks were created using deepTools bamCoverage (v3.4.3) with a bin size of 1bp and default for all other parameters. Enrichment tracks were created using deepTools bamCompare with a bin size of 50bp, a pseudo-count of 1, and excluding bins with zero counts in both target and control tracks.

Peak calls were made using MACS2 (v2.2.7.1) with default parameters and estimated genome sizes 3.03e9 and 2.79e9 for chm13 and GRCh38, respectively. GRCh38 peak calls were lifted over to chm13 using the UCSC liftOver utility, the chain file created by the T2T consortium, and the parameter "-minMatch=0.2".

Credits

Data were processed by Michael Sauria at Johns Hopkins University. For inquiries, please contact us at the following address: msauria@jhu.edu

References

Gershman A, Sauria MEG, Guitart X, Vollger MR, Hook PW, Hoyt SJ, Jain M, Shumate A, Razaghi R, Koren S, Altemose N, Caldas GV, Logsdon GA, Rhie A, Eichler EE, Schatz MC, O'Neill RJ, Phillippy AM, Miga KH, Timp W. Epigenetic patterns in a complete human genome. Science. 2022 Apr;376(6588):eabj5089. doi: 10.1126/science.abj5089. Epub 2022 Apr 1. PMID: 35357915.