从快速扩展和发展的科学数据库中为反刍动物繁殖创造新的知识。

S. Bauersachs, H. Blum, S. Krebs, T. Fröhlich, G. Arnold, E. Wolf
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引用次数: 3

摘要

生育率下降是乳制品行业面临的一个主要问题。组学技术的最新发展促进了对配子、胚胎和生殖道组织的分子模式的全面分析,这可能有助于确定生育能力受损的原因。在快速扩展和发展的科学数据库背景下,大型组学数据集需要适当的生物信息学分析。本文概述了反刍动物基因组计划的现状,描述了目前反刍动物基因组学、转录组学和蛋白质组学的现有资源,以及转录组学和蛋白质组学数据集的解释和利用的数据库和工具。基因集富集分析(GSEA)和转录因子结合位点分析(TFBS)是鉴定调控基因的策略。总的来说,利用组学技术对分子性状进行综合分析可以增强对全基因组关联研究的解释,为基因型和表型之间的生物学通路及其内源和环境因素的调节提供见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Creating new knowledge for ruminant reproduction from rapidly expanding and evolving scientific databases.
Declining fertility is a major problem for the dairy industry. Recent developments of Omics-technologies facilitate a comprehensive analysis of molecular patters in gametes, embryos and tissues of the reproductive tract which may help to identify the reasons for impaired fertility. Large Omics-datasets require appropriate bioinformatics analysis in the context of rapidly expanding and evolving scientific databases. This overview summarizes the current status of ruminant genome projects, describes currently existing resources for ruminant genomics, transcriptomics and proteomics as well as databases and tools for the interpretation and exploitation of transcriptomics and proteomics datasets. Gene set enrichment analysis (GSEA) and transcription factor binding site (TFBS) analyses are strategies for the identification of regulatory genes. In general, the comprehensive analysis of molecular traits by Omics-technologies can enhance the interpretation of genome-wide association studies, providing insights into the biological pathways linking genotype and phenotype, and their modulation by endogenous and environmental factors.
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