Chokeshaiusaha Kaj, Puthier Denis, Sananmuang Thanida, Olanratmanee Em-On, Nguyen Catherine, Kedkovid Roongtham
Department of Veterinary Science, Faculty of Veterinary Medicine, Rajamangala University of Technology Tawan-OK, Chon Buri, Thailand.
Aix-Marseille University, INSERM UMR 1090, TAGC, Marseille, France.
Vet World. 2020 Jun;13(6):1113-1125. doi: 10.14202/vetworld.2020.1113-1125. Epub 2020 Jun 16.
Pork leanness and marbling are among the essential traits of consumer preference. To acquire knowledge about universal epigenetic regulations for improving breed selection, a meta-analysis of methylated DNA immunoprecipitation sequencing (MeDIP-seq) profiling data of mixed loin muscle types was performed in this study.
MeDIP-seq profiling datasets of longissimus dorsi muscle and psoas major muscles from male and female pigs of Landrace and Tibetan breeds were preprocessed and aligned to the porcine genome. Analysis of differential methylated DNA regions (DMRs) between the breeds was performed by focusing on transcription start sites (TSSs) of known genes (-20,000-3000 bases from TSS). All associated genes were further reviewed for their functions and predicted for transcription factors (TF) possibly associated with their TSSs.
When the methylation levels of DMRs in TSS regions of Landrace breed were compared to those of Tibetan breed, 10 DMRs were hypomethylated (Landrace < Tibetan), and 19 DMRs were hypermethylated (Landrace > Tibetan), accordingly (p≤0.001). According to the reviews about gene functions, all associated genes were pieces of evidence for their roles in a variety of muscle and lipid metabolisms. Prediction of the binding TFs revealed the six most abundant binding TFs to such DMRs-associated TSS (p≤0.0001) as follows: ZNF384, Foxd3, IRF1, KLF9, EWSR1-FLI1, HES5, and TFAP2A.
Common DMRs-associated TSS between the lean-type and the marbled-type loin muscles were identified in this study. Interestingly, the genes associated with such regions were strongly evidenced for their possible roles on the muscle trait characteristics by which further novel research topics could be focused on them in the future.
猪肉的瘦肉率和大理石纹是消费者偏好的重要特征。为了获取有关改善品种选择的普遍表观遗传调控的知识,本研究对混合腰大肌类型的甲基化DNA免疫沉淀测序(MeDIP-seq)分析数据进行了荟萃分析。
对长白猪和藏猪品种的雄性和雌性猪的背最长肌和腰大肌的MeDIP-seq分析数据集进行预处理,并与猪基因组进行比对。通过关注已知基因的转录起始位点(TSSs)(距TSS -20,000至3000个碱基)来分析品种间差异甲基化DNA区域(DMRs)。对所有相关基因的功能进行进一步审查,并预测可能与其TSSs相关的转录因子(TF)。
将长白猪品种TSS区域DMRs的甲基化水平与藏猪品种进行比较时,相应地有10个DMRs发生低甲基化(长白猪<藏猪),19个DMRs发生高甲基化(长白猪>藏猪)(p≤0.001)。根据对基因功能的审查,所有相关基因均证明它们在多种肌肉和脂质代谢中发挥作用。对结合TF的预测揭示了与此类DMRs相关TSS结合最丰富的6种TF(p≤0.0001),如下所示:ZNF384、Foxd3、IRF1、KLF9、EWSR1-FLI1、HES5和TFAP2A。
本研究确定了瘦肉型和大理石纹型腰大肌之间常见的DMRs相关TSS。有趣的是,与这些区域相关的基因有力地证明了它们可能对肌肉性状特征产生影响,未来可针对它们开展进一步的新研究课题。
