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Polymorphism Analysis of MyoD1 Gene Promoter and Related SF1 Transcription Factors Validation in Local Cattle (Bos taurus) |
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Abstract Abstract The formation of skeletal muscle affects the growth and development of animals. Through screening SNPs of MyoD1 gene promoter in different breeds of cattle (Bos taurus), and studying its effect on growth body size traits and promoter function, to further provide research basis for the molecular genetic markers of growth related traits and MyoD1 gene promoter revealed promoter functional components. 200 Guizhou native cattle (including Guanling cattle, Sinan cattle, Liping cattle, Weining cattle, 50 heads , respectively) as the research material, the experiment amplified MyoD1 promoter and used direct sequencing method to detect SNPs. The experiment found 5 SNPs in four groups, g.-1141T>C、g.-871C>T in Guanling cattle, Sinan cattle, Liping cattle and g.-1778T>C、g.-871C>T、g.-797T>C、g.-761T>C in Weining cattle; Correlation analysis results showed that in Guanling cattle -1141 T>C, g.-871C>T sites had significant influence on abdominal extension girth, body length and chest girth(P<0.05), respectively; in Liping cattle -1141T>C, g.-871C>T sites had significant influence on cannon circumference(P<0.05); in Sinan cattle g.-1141T>C site had significant influence on hucklebone width, while g.-871C>T had no significant influence on growth traits; in Weining cattle g.-1778T>C、g.-871C>T、g.-797T>C、g.-761T>C sites had significant influence on body length, hucklebone width and wasitband height(P<0.05). Using the yeast one-hybrid (Y1H) system, the results found the SF1 transcription factor could be combined with the MyoD1 promoter; using dual luciferase report system, SF1 transcription factor increased the MyoD1 promoter activity. When the SF1 transcription site produced g.-1141T>C mutation, it had significant effect on abdominal girth, cannon circumference and hucklebone width and so on growth traits in three cattle(Guanling cattle, Liping cattle, Sinan cattle). SF1 has important influence for the activation and regulation of the MyoD1 gene.
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Received: 05 September 2017
Published: 02 May 2018
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