Ghosh Mrinmoy, Cho Hyun-Woo, Park Jeong-Woong, Choi Jae-Young, Chung Young-Hwa, Sharma Neelesh, Singh Amit Kumar, Kim Nam Eun, Mongre Raj Kumar, Huynh Do, Jiao Zhang Jiao, Do Kyoung Tag, Lee Hak-Kyo, Song Ki-Duk, Cho Byung-Wook, Jeong DongKee
Department of Animal Biotechnology, Faculty of Biotechnology, Jeju National University, Jeju, 690-756, Republic of Korea.
Department of Animal Science, College of Natural Resources and Life Sciences, Pusan National University, Miryang, 627-702, Republic of Korea.
Appl Biochem Biotechnol. 2016 Oct;180(3):588-608. doi: 10.1007/s12010-016-2118-4. Epub 2016 Jun 28.
The athletic abilities of the horse serve as a valuable model to understand the physiology and molecular mechanisms of adaptive responses to exercise. We analyzed differentially expressed genes in triceps brachii muscle tissues collected from Eonjena Taeyang and Jigusang Seryeok Thoroughbred horses and their co-expression networks in a large-scale RNA-sequence dataset comparing expression before and after exercise. High-quality horse transcriptome data were generated, with over 22 million 90-bp pair-end reads. By comparing the annotations, we found that MYH3, MPZ, and PDE8B genes in Eonjena Taeyang and PDE8B and KIF18A genes in Jigusang Seryeok were upregulated before exercise. Notably further, we observed that PPP1R27, NDUFA3, TNC, and ANK1 in Eonjena Taeyang and HIF1A, BDNF, ADRB2, OBSCN, and PER3 in Jigusang Seryeok have shown upregulation at the postexercise period. This investigation suggested that genes responsible for metabolism and oxidative phosphorylations associated with endurance and resistance exercise were highly expressed, whereas genes encoding structural proteins were generally suppressed. The expression profile of racehorses at pre- and postexercise will provide credible reference for further studies on biological effects such as responses to stress and adaption of other Thoroughbred horse, which might be useful for selective breeding for improvement of traits in commercial production.
马的运动能力是理解运动适应性反应的生理和分子机制的宝贵模型。我们分析了从Eonjena Taeyang和Jigusang Seryeok纯种马采集的肱三头肌肌肉组织中的差异表达基因,以及在比较运动前后表达的大规模RNA序列数据集中它们的共表达网络。生成了高质量的马转录组数据,有超过2200万个90碱基对的双端读数。通过比较注释,我们发现Eonjena Taeyang中的MYH3、MPZ和PDE8B基因以及Jigusang Seryeok中的PDE8B和KIF18A基因在运动前上调。更值得注意的是,我们观察到Eonjena Taeyang中的PPP1R27、NDUFA3、TNC和ANK1以及Jigusang Seryeok中的HIF1A、BDNF、ADRB2、OBSCN和PER3在运动后上调。这项研究表明,与耐力和抗性运动相关的负责代谢和氧化磷酸化的基因高度表达,而编码结构蛋白的基因通常受到抑制。赛马运动前后的表达谱将为进一步研究如对应激的反应和其他纯种马的适应性等生物学效应提供可靠参考,这可能有助于商业生产中改良性状的选择性育种。
