The Chromosome-scale Genome and Population Genomics Reveal the Adaptative Evolution of to Desertification Environment

Overview

Journal Hortic Res

Publisher Oxford University Press

Date 2024 Mar 28

PMID 38544549

Authors

Jianhao Sun

Jindong Xu

Chen Qiu

Juntuan Zhai

Shanhe Zhang

Xiao Zhang

Zhihua Wu

Zhijun Li

Affiliations

Soon will be listed here.

Abstract

The is a relic plant that has managed to survive in extremely harsh desert environments. Owing to intensifying global warming and desertification, research into ecological adaptation and speciation of has attracted considerable interest, but the lack of a chromosome-scale genome has limited adaptive evolution research. Here, a 521.09 Mb chromosome-level reference genome of was reported. Genome evolution and comparative genomic analysis revealed that tandemly duplicated genes and expanded gene families in contributed to adaptability to extreme desert environments (especially high salinity and drought). The long terminal repeat retrotransposons (LTR-RTs) inserted genes in the gene body region might drive the adaptive evolution of and species differentiation in saline-alkali desert environments. We recovered genetic differentiation in the populations of the northern Tianshan Mountain and southern Tianshan Mountain through whole-genome resequencing of 156 individuals from 25 populations in China. Further analyses revealed that precipitation drove the local adaptation of populations via some genetic sites, such as MAG2-interacting protein 2 () and SET domain protein 25 (). This study will provide broad implications for adaptative evolution and population studies by integrating internal genetic and external environmental factors in .

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