Systematic Evaluation of Chromosome Conformation Capture Assays

Overview

Journal Nat Methods

Specialties Biomedical Engineering
Pathology

Date 2021 Sep 4

PMID 34480151

Citations 85

Authors

Betul Akgol Oksuz

Liyan Yang

Sameer Abraham

Sergey V Venev

Nils Krietenstein

Krishna Mohan Parsi

Hakan Ozadam

Marlies E Oomen

Ankita Nand

Hui Mao

Ryan M J Genga

Rene Maehr

Oliver J Rando

Leonid A Mirny

Johan H Gibcus

Job Dekker

Affiliations

Soon will be listed here.

Abstract

Chromosome conformation capture (3C) assays are used to map chromatin interactions genome-wide. Chromatin interaction maps provide insights into the spatial organization of chromosomes and the mechanisms by which they fold. Hi-C and Micro-C are widely used 3C protocols that differ in key experimental parameters including cross-linking chemistry and chromatin fragmentation strategy. To understand how the choice of experimental protocol determines the ability to detect and quantify aspects of chromosome folding we have performed a systematic evaluation of 3C experimental parameters. We identified optimal protocol variants for either loop or compartment detection, optimizing fragment size and cross-linking chemistry. We used this knowledge to develop a greatly improved Hi-C protocol (Hi-C 3.0) that can detect both loops and compartments relatively effectively. In addition to providing benchmarked protocols, this work produced ultra-deep chromatin interaction maps using Micro-C, conventional Hi-C and Hi-C 3.0 for key cell lines used by the 4D Nucleome project.

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