Evolutionary Dynamics of 3D Genome Architecture Following Polyploidization in Cotton

Overview

Journal Nat Plants

Specialties Biology
Genetics

Date 2018 Jan 31

PMID 29379149

Citations 78

Authors

Maojun Wang

Pengcheng Wang

Min Lin

Zhengxiu Ye

Guoliang Li

Lili Tu

Chao Shen

Jianying Li

Qingyong Yang

Xianlong Zhang

Affiliations

Soon will be listed here.

Abstract

The formation of polyploids significantly increases the complexity of transcriptional regulation, which is expected to be reflected in sophisticated higher-order chromatin structures. However, knowledge of three-dimensional (3D) genome structure and its dynamics during polyploidization remains poor. Here, we characterize 3D genome architectures for diploid and tetraploid cotton, and find the existence of A/B compartments and topologically associated domains (TADs). By comparing each subgenome in tetraploids with its extant diploid progenitor, we find that genome allopolyploidization has contributed to the switching of A/B compartments and the reorganization of TADs in both subgenomes. We also show that the formation of TAD boundaries during polyploidization preferentially occurs in open chromatin, coinciding with the deposition of active chromatin modification. Furthermore, analysis of inter-subgenomic chromatin interactions has revealed the spatial proximity of homoeologous genes, possibly associated with their coordinated expression. This study advances our understanding of chromatin organization in plants and sheds new light on the relationship between 3D genome evolution and transcriptional regulation.

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