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Genome-Wide Analysis of DNA Methylation before-and after Exercise in the Thoroughbred Horse with MeDIP-Seq

Authors :
Joo Mi Yi
Jae-Woo Moon
Hee-Jae Cha
Kyudong Han
Chang Pyo Hong
Yun-Jeong Kwon
Kyung-Do Park
Ja-Rang Lee
Selvam Ayarpadikannan
Hak-Kyo Lee
Hong-Seok Ha
Jeong-An Gim
Dae-Soo Kim
Byung-Wook Cho
Jungwoo Eo
Kyoung-Tag Do
Jong Bhak
Yuri Choi
Yi-Deun Jung
Junsu Ko
Kung Ahn
Bong-Hwan Choi
Young Mok Yang
Sanghoon Song
Jin-Han Bae
Heui-Soo Kim
Source :
Molecules and Cells
Publication Year :
2015
Publisher :
Korean Society for Molecular and Cellular Biology, 2015.

Abstract

Athletic performance is an important criteria used for the selection of superior horses. However, little is known about exercise-related epigenetic processes in the horse. DNA methylation is a key mechanism for regulating gene expression in response to environmental changes. We carried out comparative genomic analysis of genome-wide DNA methylation profiles in the blood samples of two different thoroughbred horses before and after exercise by methylated-DNA immunoprecipitation sequencing (MeDIP-Seq). Differentially methylated regions (DMRs) in the pre-and post-exercise blood samples of superior and inferior horses were identified. Exercise altered the methylation patterns. After 30 min of exercise, 596 genes were hypomethylated and 715 genes were hypermethylated in the superior horse, whereas in the inferior horse, 868 genes were hypomethylated and 794 genes were hypermethylated. These genes were analyzed based on gene ontology (GO) annotations and the exercise-related pathway patterns in the two horses were compared. After exercise, gene regions related to cell division and adhesion were hypermethylated in the superior horse, whereas regions related to cell signaling and transport were hypermethylated in the inferior horse. Analysis of the distribution of methylated CpG islands confirmed the hypomethylation in the gene-body methylation regions after exercise. The methylation patterns of transposable elements also changed after exercise. Long interspersed nuclear elements (LINEs) showed abundance of DMRs. Collectively, our results serve as a basis to study exercise-based reprogramming of epigenetic traits.

Details

ISSN :
02191032 and 10168478
Volume :
38
Database :
OpenAIRE
Journal :
Molecules and Cells
Accession number :
edsair.doi.dedup.....d9c90fb4ef8168859217594e98db4116