后基因组时代瘤胃微生物基因组信息在家畜系统中的应用

G. Attwood, W. Kelly, E. Altermann, C. Moon, S. Leahy, A. Cookson
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引用次数: 15

摘要

对单个瘤胃微生物的基因组进行测序并确定其编码基因的功能有望改变我们对瘤胃微生物学的理解。瘤胃中微生物的多样性和密度,以及我们无法培养大多数瘤胃微生物,限制了目前的基因组研究仅局限于这种环境中存在的一小部分微生物。然而,纤维降解生物的基因组开始揭示先前意想不到的编码糖基水解酶和碳水化合物酯酶的基因丰富,这可以用来增强瘤胃中的纤维消化。此外,瘤胃产甲烷菌的基因组测序正在鉴定产甲烷古菌中的保守基因,这些基因可能作为抑制反刍动物甲烷排放的靶点。瘤胃微生物可培养性的问题可以通过一种称为宏基因组学的新方法来克服,该方法从瘤胃样本中提取微生物dna并独立于培养进行测序。在未来,个体基因组测序和宏基因组文库可能会捕获更多的瘤胃微生物DNA,再加上基因和蛋白质表达的后基因组研究,可能会增强我们对反刍动物消化微生物成分的了解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Application of rumen microbial genome information to livestock systems in the postgenomic era
Sequencing the genomes of individual rumen microbes and determining the function of their encoded genes promises to transform our understanding of the microbiology of the rumen. The diversity and density of microbes in the rumen, and our inability to culture the majority of rumen microbes, limit current genome studies to only a small fraction of the microbes present in this environment. Nevertheless, genomes of fibre-degrading organisms are beginning to reveal a previously unexpected abundance of genes encoding glycosyl hydrolases and carbohydrate esterases, which could be used to enhance fibre digestion in the rumen. Additionally, genome sequencing of a rumen methanogen is identifying conserved genes within the methanogenic archaea that may serve as targets for their inhibition and therefore reduction of methane emissions from ruminants. The problem of rumen microbe culturability can be overcome by a new approach called metagenomics, in which microbial DNAs are extracted from rumen samples and sequenced independent of cultivation. In the future, sequencing individual genomes and metagenomic libraries is likely to capture much more of the microbial DNA in the rumen and, coupled with postgenomic studies on gene and protein expression, is likely to enhance our knowledge of the microbial component of ruminant digestion.
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