Identification of significant chromatin contacts from HiChIP data by FitHiChIP
Identification of significant chromatin contacts from HiChIP data by FitHiChIP
HiChIP/PLAC-seq is increasingly becoming popular for profiling 3D chromatin contacts among regulatory elements and for annotating functions of genetic variants. Here we describe FitHiChIP, a computational method for loop calling from HiChIP/PLAC-seq data, which jointly models the non-uniform coverage and genomic distance scaling of contact counts to compute statistical significance estimates. We also develop a technique to filter putative bystander loops that can be explained by stronger adjacent loops. Compared to existing methods, FitHiChIP performs better in recovering contacts reported by Hi-C, promoter capture Hi-C and ChIA-PET experiments and in capturing previously validated promoter-enhancer interactions. FitHiChIP loop calls are reproducible among replicates and are consistent across different experimental settings. Our work also provides a framework for differential HiChIP analysis with an option to utilize ChIP-seq data for further characterizing differential loops. Even though designed for HiChIP, FitHiChIP is also applicable to other conformation capture assays.
4221
Bhattacharyya, Sourya
3c06d5d5-73a7-47b1-8f3c-93e25f7ee452
Chandra, Vivek
039d4c67-8b8f-4ec9-a11c-4d311832c450
Vijayanand, Pandurangan
79514f33-66cf-47cc-a8fa-46bbfc21b7d1
Ay, Ferhat
c43aed4d-b4ea-4206-9a2b-520e0ed75ae7
17 September 2019
Bhattacharyya, Sourya
3c06d5d5-73a7-47b1-8f3c-93e25f7ee452
Chandra, Vivek
039d4c67-8b8f-4ec9-a11c-4d311832c450
Vijayanand, Pandurangan
79514f33-66cf-47cc-a8fa-46bbfc21b7d1
Ay, Ferhat
c43aed4d-b4ea-4206-9a2b-520e0ed75ae7
Bhattacharyya, Sourya, Chandra, Vivek, Vijayanand, Pandurangan and Ay, Ferhat
(2019)
Identification of significant chromatin contacts from HiChIP data by FitHiChIP.
Nature Communications, 10 (1), .
(doi:10.1038/s41467-019-11950-y).
Abstract
HiChIP/PLAC-seq is increasingly becoming popular for profiling 3D chromatin contacts among regulatory elements and for annotating functions of genetic variants. Here we describe FitHiChIP, a computational method for loop calling from HiChIP/PLAC-seq data, which jointly models the non-uniform coverage and genomic distance scaling of contact counts to compute statistical significance estimates. We also develop a technique to filter putative bystander loops that can be explained by stronger adjacent loops. Compared to existing methods, FitHiChIP performs better in recovering contacts reported by Hi-C, promoter capture Hi-C and ChIA-PET experiments and in capturing previously validated promoter-enhancer interactions. FitHiChIP loop calls are reproducible among replicates and are consistent across different experimental settings. Our work also provides a framework for differential HiChIP analysis with an option to utilize ChIP-seq data for further characterizing differential loops. Even though designed for HiChIP, FitHiChIP is also applicable to other conformation capture assays.
Text
s41467-019-11950-y
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Accepted/In Press date: 14 August 2019
Published date: 17 September 2019
Identifiers
Local EPrints ID: 434590
URI: http://eprints.soton.ac.uk/id/eprint/434590
ISSN: 2041-1723
PURE UUID: 10058648-a194-41c5-9bcc-c1f8ca77190b
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Date deposited: 02 Oct 2019 16:30
Last modified: 16 Mar 2024 04:20
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Author:
Sourya Bhattacharyya
Author:
Vivek Chandra
Author:
Pandurangan Vijayanand
Author:
Ferhat Ay
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