The SNPs in myoD gene from normal muscle developing individuals have no effect on muscle mass

The SNPs in myoD gene from normal muscle developing individuals have no effect on muscle mass

Abstract Background Myogenic Differentiation 1 (MyoD) is a crucial master switch in regulating muscle-specific gene transcription. Forced expression of myoD is equipped to induce several cell lineages into myoblast, which then differentiate and fuse into myotube. Pig is one of the most significant l...

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Main Authors: Suying Ding, Yaping Nie, Xumeng Zhang, Xiaohong Liu, Chen Wang, Renqiang Yuan, Keren Chen, Qi Zhu, Shufang Cai, Ying Fang, Yaosheng Chen, Delin Mo
Format: Article
Language:English
Published: BMC 2019-09-01
Series:BMC Genetics
Subjects:
Muscle mass
Myogenesis
Nucleotide variation
Pig
Transcriptional activity
Online Access:http://link.springer.com/article/10.1186/s12863-019-0772-6
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spelling doaj-283b76f005814207bf2263a4f00f744e2020-11-25T03:57:03ZengBMCBMC Genetics1471-21562019-09-0120111110.1186/s12863-019-0772-6The SNPs in myoD gene from normal muscle developing individuals have no effect on muscle massSuying Ding0Yaping Nie1Xumeng Zhang2Xiaohong Liu3Chen Wang4Renqiang Yuan5Keren Chen6Qi Zhu7Shufang Cai8Ying Fang9Yaosheng Chen10Delin Mo11State Key Laboratory of Biocontrol, School of Life Sciences, Sun Yat-sen UniversityState Key Laboratory of Biocontrol, School of Life Sciences, Sun Yat-sen UniversityState Key Laboratory of Biocontrol, School of Life Sciences, Sun Yat-sen UniversityState Key Laboratory of Biocontrol, School of Life Sciences, Sun Yat-sen UniversityState Key Laboratory of Biocontrol, School of Life Sciences, Sun Yat-sen UniversityState Key Laboratory of Biocontrol, School of Life Sciences, Sun Yat-sen UniversityState Key Laboratory of Biocontrol, School of Life Sciences, Sun Yat-sen UniversityState Key Laboratory of Biocontrol, School of Life Sciences, Sun Yat-sen UniversityState Key Laboratory of Biocontrol, School of Life Sciences, Sun Yat-sen UniversityState Key Laboratory of Biocontrol, School of Life Sciences, Sun Yat-sen UniversityState Key Laboratory of Biocontrol, School of Life Sciences, Sun Yat-sen UniversityState Key Laboratory of Biocontrol, School of Life Sciences, Sun Yat-sen UniversityAbstract Background Myogenic Differentiation 1 (MyoD) is a crucial master switch in regulating muscle-specific gene transcription. Forced expression of myoD is equipped to induce several cell lineages into myoblast, which then differentiate and fuse into myotube. Pig is one of the most significant livestock supplying meat, and has been classified into lean, fat and miniature pig breeds. However, the mechanisms underlying muscle mass variation among different pig breeds have remained unclear. Considering the important effect of MyoD on muscle development, it remains to be investigated whether the difference in muscle mass is caused by its single nucleotide polymorphisms (SNPs) which are the major differences among pig breeds at DNA level. Results In this study, we identified the locations of porcine myoD regulatory regions including proximal regulatory region (PRR), distal regulatory region (DRR), and core enhancer (CE) region. There are 8 SNPs in the regulatory regions and 6 SNPs in gene body region, which were identified from lean, fat and miniature pig populations. However, these SNPs have no effects on its temporal expression and transcriptional activity which might lead to the distinction in postnatal muscle mass. In addition, overexpression of myoD clones across from amphibious to mammals including xenopus tropicalis, chicken, mouse and pig whose gene identities vary from 68 to 84%, could promote myogenesis in NIH3T3 fibroblasts cells. Conclusions These results proved that myoD nucleotide variations from different pig populations have no effect on muscle mass, suggesting that the function of myoD is highly conserved not only among different pig breeds, but also across different species. Thus, it would be futile to discover SNPs affecting muscle mass in pig populations with normal muscle development.http://link.springer.com/article/10.1186/s12863-019-0772-6Muscle massMyogenesisNucleotide variationPigTranscriptional activity
collection DOAJ
language English
format Article
sources DOAJ
author Suying Ding
Yaping Nie
Xumeng Zhang
Xiaohong Liu
Chen Wang
Renqiang Yuan
Keren Chen
Qi Zhu
Shufang Cai
Ying Fang
Yaosheng Chen
Delin Mo
spellingShingle Suying Ding
Yaping Nie
Xumeng Zhang
Xiaohong Liu
Chen Wang
Renqiang Yuan
Keren Chen
Qi Zhu
Shufang Cai
Ying Fang
Yaosheng Chen
Delin Mo
The SNPs in myoD gene from normal muscle developing individuals have no effect on muscle mass
BMC Genetics
Muscle mass
Myogenesis
Nucleotide variation
Pig
Transcriptional activity
author_facet Suying Ding
Yaping Nie
Xumeng Zhang
Xiaohong Liu
Chen Wang
Renqiang Yuan
Keren Chen
Qi Zhu
Shufang Cai
Ying Fang
Yaosheng Chen
Delin Mo
author_sort Suying Ding
title The SNPs in myoD gene from normal muscle developing individuals have no effect on muscle mass
title_short The SNPs in myoD gene from normal muscle developing individuals have no effect on muscle mass
title_full The SNPs in myoD gene from normal muscle developing individuals have no effect on muscle mass
title_fullStr The SNPs in myoD gene from normal muscle developing individuals have no effect on muscle mass
title_full_unstemmed The SNPs in myoD gene from normal muscle developing individuals have no effect on muscle mass
title_sort snps in myod gene from normal muscle developing individuals have no effect on muscle mass
publisher BMC
series BMC Genetics
issn 1471-2156
publishDate 2019-09-01
description Abstract Background Myogenic Differentiation 1 (MyoD) is a crucial master switch in regulating muscle-specific gene transcription. Forced expression of myoD is equipped to induce several cell lineages into myoblast, which then differentiate and fuse into myotube. Pig is one of the most significant livestock supplying meat, and has been classified into lean, fat and miniature pig breeds. However, the mechanisms underlying muscle mass variation among different pig breeds have remained unclear. Considering the important effect of MyoD on muscle development, it remains to be investigated whether the difference in muscle mass is caused by its single nucleotide polymorphisms (SNPs) which are the major differences among pig breeds at DNA level. Results In this study, we identified the locations of porcine myoD regulatory regions including proximal regulatory region (PRR), distal regulatory region (DRR), and core enhancer (CE) region. There are 8 SNPs in the regulatory regions and 6 SNPs in gene body region, which were identified from lean, fat and miniature pig populations. However, these SNPs have no effects on its temporal expression and transcriptional activity which might lead to the distinction in postnatal muscle mass. In addition, overexpression of myoD clones across from amphibious to mammals including xenopus tropicalis, chicken, mouse and pig whose gene identities vary from 68 to 84%, could promote myogenesis in NIH3T3 fibroblasts cells. Conclusions These results proved that myoD nucleotide variations from different pig populations have no effect on muscle mass, suggesting that the function of myoD is highly conserved not only among different pig breeds, but also across different species. Thus, it would be futile to discover SNPs affecting muscle mass in pig populations with normal muscle development.
topic Muscle mass
Myogenesis
Nucleotide variation
Pig
Transcriptional activity
url http://link.springer.com/article/10.1186/s12863-019-0772-6
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