Chicken Hypothalamic and Ovarian DNA Methylome Alteration in Response to Forced Molting-Reference-Cited by-同舟云学术

Chicken Hypothalamic and Ovarian DNA Methylome Alteration in Response to Forced Molting

Published:2023-03-10 Issue:6 Volume:13 Page:1012
ISSN:2076-2615
Container-title:Animals
language:en
Short-container-title:Animals

Author:

Zhang Tongyu¹^ORCID,Li Chengfeng²,Deng Jianwen¹,Jia Yaxiong³,Qu Lujiang¹⁴⁵,Ning Zhonghua¹⁴⁵

Affiliation:

1. Department of Animal Genetics and Breeding, College of Animal Science and Technology, China Agricultural University, Beijing 100193, China

2. Hubei Shendan Healthy Food Co., Ltd., Xiaogan 432600, China

3. Institute of Animal Science, Chinese Academy of Agricultural Sciences, Beijing 100091, China

4. National Engineering Laboratory for Animal Breeding, College of Animal Science and Technology, China Agricultural University, Beijing 100193, China

5. State Key Laboratory of Animal Nutrition, Beijing 100193, China

Abstract

Epigenetic modifications play an important role in regulating animal adaptation to external stress. To explore how DNA methylation regulates the expression levels of related genes during forced molting (FM) of laying hens, the hypothalamus and ovary tissues were analyzed at five periods using Whole-Genome Bisulfite Sequencing. The results show that methylation levels fluctuated differently in the exon, intron, 5′UTR, 3′UTR, promoter, and intergenic regions of the genome during FM. In addition, 16 differentially methylated genes (DMGs) regulating cell aging, immunity, and development were identified in the two reversible processes of starvation and redevelopment during FM. Comparing DMGs with differentially expressed genes (DEGs) obtained in the same periods, five hypermethylated DMGs (DSTYK, NKTR, SMOC1, SCAMP3, and ATOH8) that inhibited the expression of DEGs were found. Therefore, DMGs epigenetically modify the DEGs during the FM process of chickens, leading to the rapid closure and restart of their reproductive function and a re-increase in the egg-laying rate. Therefore, this study further confirmed that epigenetic modifications could regulate gene expression during FM and provides theoretical support for the subsequent optimization of FM technology.

Funder

Beijing Innovation Team of the Modern Agro-industry Technology Research System

Modern Agricultural Industry Technology System

Publisher

MDPI AG

Subject

General Veterinary,Animal Science and Zoology

Link

https://www.mdpi.com/2076-2615/13/6/1012/pdf

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