基因型相关的遗传性瘤胃细菌可作为稳定的微生物群传给后代

IF 5.1 Q1 ECOLOGY
Xinwei Zang, Huizeng Sun, Mingyuan Xue, Shulin Liang, Le Luo Guan, Jianxin Liu
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摘要

最近的研究报告称,一些瘤胃微生物是 "可遗传的"(具有显著的狭义遗传性),可对宿主的表型变化产生重大影响。然而,这些可遗传的瘤胃细菌是否会遗传给下一代还不得而知。本研究对母牛(2016 年采样)及其后代(2019 年采样)的瘤胃细菌进行了评估,以确定两代之间是否存在垂直传播。宿主基因型与可遗传细菌丰度之间的关系分析表明,五种宿主基因型的潜能可影响两种未分类的物种级可遗传细菌(假心孢子菌和p-251-o5)的相对丰度。BTB-01532239 的 G 等位基因和 ARS-BFGL-NGS-8960 的 A 等位基因与较高的 p-251-o5 相对丰度相关。BTB-00740910和BovineHD1300021786的A等位基因以及BovineHD1900005868的G等位基因与较高的假丝酵母相对丰度相关。母子比较显示,两代之间可遗传的瘤胃细菌比不可遗传的细菌具有更高的组成相似性,而且预测的可遗传微生物功能比不可遗传的细菌具有更高的稳定性。这些研究结果表明,遗传性瘤胃细菌具有很高的稳定性,可以遗传给奶牛的下一代。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Genotype-associated heritable rumen bacteria can be a stable microbiota passed to the offspring
Recent studies have reported that some rumen microbes are “heritable” (those have significant narrow sense heritability) and can significantly contribute to host phenotype variations. However, it is unknown if these heritable rumen bacteria can be passed to the next generation. In this study, the rumen bacteria from mother cows (sampled in 2016) and their offspring (sampled in 2019) were assessed to determine if vertical transmission occurred between the two generations. The analysis of relationship between host genotypes and heritable bacterial abundances showed that potential of five host genotypes can affect the relative abundances of two unclassified species level heritable bacteria (Pseudoscardovia, and p-251-o5). The G allele of BTB-01532239 and A allele of ARS-BFGL-NGS-8960 were associated with a higher relative abundance of p-251-o5. The A allele of BTB-00740910 and BovineHD1300021786, and G allele of BovineHD1900005868 were associated with a higher relative abundance of Pseudoscardovia. The mother-offspring comparison revealed that the heritable rumen bacteria had higher compositional similarity than nonheritable bacteria between two generations, and the predicted heritable microbial functions had higher stability than those from non-heritable bacteria. These findings suggest that a high stability exists in heritable rumen bacteria, which could be passed to the next generation in dairy cows.
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