Single Nucleotide Polymorphisms in the Promoter Region of MyoG Gene Affecting Growth Traits and Transcription Factor Binding Sites in Guizhou White Goat (Capra hircus)
Xingchao Song, Huaixin Long, Jinzhu Meng, Yuanyuan Zhao, Zhenyang Wu, Qingming An

TL;DR
This study identifies SNPs in the MyoG gene promoter of Guizhou White goats that affect growth traits and alter transcription factor binding sites.
Contribution
The study discovers novel SNPs in the MyoG gene promoter and links them to specific growth traits in Guizhou White goats.
Findings
Four SNPs (g.–709C>T, g.–461G>T, g.–377G>T, g.–249G>A) were identified in the MyoG gene promoter region.
Certain genotypes at these SNPs were associated with higher body weight and body length in Guizhou White goats.
The SNPs altered transcription factor binding sites, suggesting a regulatory role in gene expression.
Abstract
Objective: Growth traits are important economic characteristics in livestock. Genetic polymorphism has great influences on the improvement of goat growth traits. As an important member of the myogenic regulatory factor (MRFs) family, MyoG gene polymorphisms can alter the growth characteristics in goats. In this study, we aimed to investigate the regulation mechanism of the MyoG gene promoter region from the perspective of single nucleotide polymorphisms (SNPs) and transcription factors. Methods: Genomic DNA sequencing was carried out to detect SNPs in the −1000 bp upstream to 300 bp downstream of the MyoG gene promoter region in 224 Guizhou White goats (Capra hircus), and the genetic parameters of novel SNPs were calculated. The association between SNPs and growth traits, comprising body weight, body length, body height, chest circumference and cannon circumference, were analyzed using…
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Taxonomy
TopicsMuscle Physiology and Disorders · Genetic and phenotypic traits in livestock · Genetics and Physical Performance
