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一项经过验证的牛高效食物转化全基因组关联研究。

A validated whole-genome association study of efficient food conversion in cattle.

作者信息

Barendse W, Reverter A, Bunch R J, Harrison B E, Barris W, Thomas M B

机构信息

CSIRO Livestock Industries, Queensland Bioscience Precinct, St. Lucia 4067, Australia.

出版信息

Genetics. 2007 Jul;176(3):1893-905. doi: 10.1534/genetics.107.072637. Epub 2007 May 16.

DOI:10.1534/genetics.107.072637
PMID:17507676
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1931545/
Abstract

The genetic factors that contribute to efficient food conversion are largely unknown. Several physiological systems are likely to be important, including basal metabolic rate, the generation of ATP, the regulation of growth and development, and the homeostatic control of body mass. Using whole-genome association, we found that DNA variants in or near proteins contributing to the background use of energy of the cell were 10 times as common as those affecting appetite and body-mass homeostasis. In addition, there was a genic contribution from the extracellular matrix and tissue structure, suggesting a trade-off between efficiency and tissue construction. Nevertheless, the largest group consisted of those involved in gene regulation or control of the phenotype. We found that the distribution of micro-RNA motifs was significantly different for the genetic variants associated with residual feed intake than for the genetic variants in total, although the distribution of promoter sequence motifs was not different. This suggests that certain subsets of micro-RNA are more important for the regulation of this trait. Successful validation depended on the sign of the allelic association in different populations rather than on the strength of the initial association or its size of effect.

摘要

促成高效食物转化的遗传因素在很大程度上尚不清楚。几个生理系统可能很重要,包括基础代谢率、ATP的生成、生长发育的调节以及体重的稳态控制。通过全基因组关联研究,我们发现,细胞能量背景利用相关蛋白质内部或附近的DNA变异,其常见程度是影响食欲和体重稳态的变异的10倍。此外,细胞外基质和组织结构存在基因贡献,这表明在效率和组织构建之间存在权衡。然而,最大的一组是那些参与基因调控或表型控制的因素。我们发现,与剩余采食量相关的遗传变异的微小RNA基序分布,与总体遗传变异的微小RNA基序分布显著不同,尽管启动子序列基序的分布没有差异。这表明某些微小RNA子集对该性状的调控更为重要。成功的验证取决于不同群体中等位基因关联的符号,而不是初始关联的强度或其效应大小。

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