DNA methylation and transcriptome analysis reveal epigenomic differences among three macaque species

Jiao Wang; Xuyuan Liu; Yue Lan; Tengcheng Que; Jing Li; Bisong Yue; Zhenxin Fan

doi:10.1111/eva.13604

Evolutionary Applications (Feb 2024)

DNA methylation and transcriptome analysis reveal epigenomic differences among three macaque species

Jiao Wang,
Xuyuan Liu,
Yue Lan,
Tengcheng Que,
Jing Li,
Bisong Yue,
Zhenxin Fan

Affiliations

Jiao Wang: Key Laboratory of Bioresources and Eco‐Environment (Ministry of Education), College of Life Sciences Sichuan University Sichuan Chengdu China
Xuyuan Liu: Key Laboratory of Bioresources and Eco‐Environment (Ministry of Education), College of Life Sciences Sichuan University Sichuan Chengdu China
Yue Lan: Sichuan Key Laboratory of Conservation Biology on Endangered Wildlife, College of Life Sciences Sichuan University Sichuan Chengdu China
Tengcheng Que: Terrestrial Wildlife Rescue and Epidemic Diseases Surveillance Center of Guangxi Guangxi Nanning China
Jing Li: Key Laboratory of Bioresources and Eco‐Environment (Ministry of Education), College of Life Sciences Sichuan University Sichuan Chengdu China
Bisong Yue: Sichuan Key Laboratory of Conservation Biology on Endangered Wildlife, College of Life Sciences Sichuan University Sichuan Chengdu China
Zhenxin Fan: Key Laboratory of Bioresources and Eco‐Environment (Ministry of Education), College of Life Sciences Sichuan University Sichuan Chengdu China

DOI: https://doi.org/10.1111/eva.13604
Journal volume & issue: Vol. 17, no. 2
pp. n/a – n/a

Abstract

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Abstract Macaques (genus Macaca) are the most widely distributed non‐human primates, and their evolutionary history, gene expression profiles, and genetic differences have been extensively studied. However, the DNA methylomes of macaque species are not available in public databases, which hampers understanding of epigenetic differences among macaque species. Epigenetic modifications can potentially affect development, physiology, behavior, and evolution. Here, we investigated the methylation patterns of the Tibetan macaque (M. thibetana; TM), Chinese rhesus macaque (M. mulatta lasiota; CR), and crab‐eating macaque (M. fascicularis; CE) through whole‐genome bisulfite sequencing from peripheral blood. We compared genome‐wide methylation site information for the three species. We identified 12,128 (CR vs. CE), 59,165 (CR vs. TM), and 39,751 (CE vs. TM) differentially methylated regions (DMRs) in the three macaques. Furthermore, we obtained the differentially expressed genes (DEGs) among the three macaque species. The differences between CR and CE were smaller at both the methylome and transcriptome levels than compared with TM (CR vs. TM and CE vs. TM). We also found a change in the density of single nucleotide mutations in DMRs relative to their flanking regions, indicating a potential mechanism through which genomic alterations may modulate methylation landscapes, thereby influencing the transcriptome. Functional enrichment analyses showed the DMR‐related genes were enriched in developmental processes and neurological functions, such as the growth hormone‐related pathway, insulin secretion pathway, thyroid hormone synthesis pathway, morphine addiction, and GABAergic synapses. These differences may be associated with variations in physiology and habitat among the macaques. Our study provides one of the first genome‐wide comparisons of genetic, gene expression, and epigenetic variations across different macaques. Our results should facilitate further research on comparative genomic and genetic differences in macaque species.

Published in Evolutionary Applications

ISSN: 1752-4571 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Biology (General): Evolution
Website: https://onlinelibrary.wiley.com/journal/17524571

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