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家兔肌肉生长抑制素基因多态性及其遗传效应分析 被引量:9

POLYMORPHISM AND GENETIC EFFECTS OF MYOSTATIN GENE IN RABBITS
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摘要 以9个肉兔纯系及其37个杂交组合为实验材料,采用测序和单链构象多态(SSCP)的分析方法探讨了肌肉生长抑制素(Myostatin,MSTN)基因的全部3个外显子区及部分5'调控区的遗传多态性,结果发现该基因5'调控区476位点存在1处T→C的单碱基突变,外显子区域没有发现突变位点。关联分析表明,该突变有增加活体重,提高胴体重、前腿重、背腰重、后腿重和皮重,同时降低肌肉滴水损失和熟肉率等有利遗传效应(P<0.05),结果提示位于MSTN基因上游调控区的该处突变有利于家兔的体躯发育,可资开发为用于家兔肉用性能选育的分子标记。 The polymorphism of myostatin(MSTN) gene in nine purelines and 37 crossbreds of rabbit was analyzed by sequencing and PCR-SSCP.There exons and partial 5′UTR were detected.Only one mutation(T→C) at base position 476 of 5′UTR was found among individuals in each line.The genetic effects of this polymorphism on growth traits,partial carcass traits and meat quality traits were investigated.The mutant allele had significant positive effects on live weight,carcass weight,forelegs weight,loin weight,ham weight and skin weight(P 0.05),and reduced muscle drip loss and cooked rate.The results suggested that the variation in the upstream regulatory region of MSTN gene was beneficial to the body-development,and could be a potential molecular marker of meat quality traits selection in rabbit.
作者 乔西波 徐凯勇 李标 栾新 夏婷 樊新忠
机构地区 山东农业大学动物科技学院 山东中医药大学
出处 《山东农业大学学报(自然科学版)》 CSCD 北大核心 2012年第2期247-251,共5页 Journal of Shandong Agricultural University:Natural Science Edition
基金 青岛康大兔业发展有限公司与山东农业大学合作课题"康大肉兔配套系育种"项目
关键词 家兔 MSTN基因 SNPS 肉质性状 Rabbit myostatin gene SNPs meat quality traits
分类号 Q38 [生物学—遗传学]
  • 相关文献

参考文献11

  • 1Mcpherron A C,Lawler A M,Lee SJ.Regulation of skeletal muscle mass in mice by a new TGF-βsuperfamily member[J].Nature,1997,387:83-89.
  • 2Thomas E.Weber,Brian C.Small,Brian G.Bosworth.Lipopolysaccharide regulates myostatin and MyoD independently of an increase inplasma cortisol in channel catfish(Ictalurus punctatus)[J].Domestic Animal Endocrinology,2005,28:64-73.
  • 3Lee S J,McPherron A C.Myostatin and the control of skeletal muscle mass[J].Curr.Opin.Genet.Dev.,1999,9(5):604-607.
  • 4Casas E,J W Keele,T P L Smith,et al.Quantitative analysis of birth,weaning,and yearling weights and calving difficulty in Piedmontesecrossbreds segregating an inactive myostatin allele[J].Anim.Sci.,1999,77(7):1686-1692.
  • 5Sonstegard T S,Rohrer G A,Smith T P L.Myostatin maps to porcine chromosome15 by linkage and physical ananlysis[J].Anim.Genet.,1998,29:19-22.
  • 6Fontanesi L,Tazzoli M,Scotti E,et al.Analysis of Candidate Genes for Meat Production Traits in Domestic Rabbit Breeds[R].9th WorldRabbit Congress,2008,June 10-13.
  • 7Dunner S,Charlier C,Farnir F,et al.Towards interbreed IBD fine mapping of the mh locus:double-muscling in the Asturiana de los Vallesbreed involves the same locus as in the Belgian Blue cattle breed[J].Mammalian Genome 1997,8:430-435.
  • 8Luc Grobet,Dominique Poncelet,Luis Jos Royo.Molecular definition of an allelic series of mutations disrupting the myostatin function and cau-sing double-muscling in cattle[J].Mammalian genome,1998,9(3):210-213.
  • 9Alexandra C Mcpherron,Se-Jin Lee.Double muscling in cattle due to mutation in the myostation gene[J].Proc.Natl.Acad.Sci USA,1997,94:12457-12461.
  • 10Cappuccio I,Marchitelli C,Serracchioll A,et al.A G-T transversion introduces as top codon at the mh locus in hypertrophic marchigianabeef subjects[J].Animal Genetics,1998,29(suppl.1):51.

二级参考文献20

  • 1Yu T P,Tuggle C K,Schmitz C B,Rothschild M F.Association of PIT1 polymorphisms with growth and carcass traits in pigs.J.Anim.Sci.,1995,73(5):1282~1288.
  • 2Kim K S,Larsen N,Short T et al. A missense variant of the porcine melanocortin-4 receptor (MC4R) gene is associated with fatness,growth,and feed intake traits.Mamm Genome,2000,11(2):131~135.
  • 3Kennes Y M,Murphy B D,Pothier F,Palin M F.Characterization of swine leptin(LEP) polymorphisms and their association with production traits.Anim Genet.,2001,32(4):215~218.
  • 4Lee S J,McPherron A C.Myostatin and the control of skeletal muscle mass.Curr.Opin.Genet.Dev.,1999,9(5):604~607.
  • 5Casas E,Keele J W,Fahrenkrug S C et al. Quantitative analysis of birth, weaning,and yearling weights and calving difficulty in Piedmontese crossbreds segregating an inactive myostatin allele.J.Anim.Sci.,1999,77(7):1686~1692.
  • 6Stratil A,Kopecny M.Genomic organization,sequence and polymorphism of the porcine myostatin (GDF8;MSTN)gene.Anim.Genet.,1999,30(6):468~470.
  • 7SAS Institute Inc.SAS/STAT User's guide,Release 6.03 edn.SAS Institute Inc.Cary,NC,USA,1998.
  • 8McPherron A C,Lawler A M,Lee S-J.Regulation of skeletal muscle mass in mice by a new TGF-β superfamily member.Nature,1997,387:83~90.
  • 9Ji S,Losinski R L,Cornelius S G et al. Myostatin expression in porcine tissues:tissue specificity and developmental and postnatal regulation.Am.J.Physiol.,1998,275(4 Pt 2):R1265~1273.
  • 10Wang L,Yu T P,Tuggle C K et al. A directed search for quantitative trait loci on chromosomes 4 and 7 in pigs.J.Anim.Sci.,1998,76(10):2560~2567.

共引文献46

同被引文献137

引证文献9

二级引证文献22

山东农业大学学报(自然科学版)
2012年 第2期

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