Metagenomic assessment of the rumen resistome, mobilome and stress response genes in smallholder dairy cattle in Kenya

International Journal of Livestock Production Pub Date : 2020-11-30 DOI:10.5897/ijlp2019.0654

Kibegwa Felix, Bett C. Rawlynce, G. Charles, Machuka Eunice, Mujibi D. Fidalis

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Abstract

Smallholder dairy cattle rumen microbiotas are subjected to a wide range of antimicrobials as well as sudden fluctuations in diets. As such, they develop an enormous reservoir of resistant genes, mobilome and stress response genes. However, information on metagenomic reactions to such dietary variations, especially for cattle reared in the tropics, remains largely unexplored. This meta-analysis was conducted to assess if antibiotic and toxic compound resistance genes (ARGs), stress response genes and bacterial phages, prophages and transposable element genes were present, and to what extent, in three dairy cattle genotypes (Friesian, FriesianXJersey crossbreed, Jersey) reared in a farm that practiced judicious use of antimicrobials. Potential bacterial hosts to these genes were also explored. The rumen metagenomes generated from Next Generation Sequencing (NGS) technology were analyzed using MG-RAST. According to the results stress reaction, resistance and mobilome genes were present in similar amounts in all the three genotypes. Cobalt-zinc-cadmium resistance, ﬂuoroquinolone resistance, methicillin resistance in Staphylococci and multidrug resistance efflux pumps were the most abundant resistant genes and were spread across 20, 24, 16 and 21 bacterial classes, respectively. Bacteria in charge of phage integration and excision, phages replication and phage packaging were mostly allocated to the phyla Firmicutes, Bacteroides and Proteobacteria. Within the stress response genes, metagenomic assembly-based host-tracking analysis identified the extended heat shock dnaK gene cluster as the most abundant genes, while Bacteroides and Clostridium were the principal bacterial hosts. The results show that even with proper use of antimicrobials, the cattle rumen contained an immense distribution of responses to stress, ARGs and mobilome genes distributed in a vast assemblage of hosts. There is also a high correlation between these three functional groups. Key words: Resistome, metagenome, MG-RAST, Stress genes, mobilome

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肯尼亚小农奶牛瘤胃抵抗组、移动组和应激反应基因的宏基因组评估

小农奶牛瘤胃微生物群受到各种抗菌剂和饲料突然波动的影响。因此，它们形成了一个巨大的抗性基因、移动组和应激反应基因库。然而，关于这种饮食变化的宏基因组反应的信息，特别是对于在热带地区饲养的牛，在很大程度上仍未被探索。本荟萃分析旨在评估在合理使用抗菌剂的养殖场饲养的三种奶牛基因型(弗里西亚、弗里西亚与泽西杂交、泽西)中是否存在抗生素和有毒化合物耐药基因(ARGs)、应激反应基因以及细菌噬菌体、噬菌体和转座因子基因，以及在多大程度上存在。对这些基因的潜在细菌宿主也进行了探索。利用MG-RAST对下一代测序(NGS)技术生成的瘤胃宏基因组进行分析。结果表明，应激反应基因、抗性基因和运动组基因在三种基因型中含量相近。耐钴锌镉、氟喹诺酮类、葡萄球菌耐甲氧西林和耐多药外排泵是最丰富的耐药基因，分别分布在20、24、16和21个细菌类别中。负责噬菌体整合和切除、噬菌体复制和噬菌体包装的细菌主要分布在厚壁菌门、拟杆菌门和变形菌门。在胁迫响应基因中，基于宏基因组组装的宿主跟踪分析发现，扩展热休克dnaK基因簇是最丰富的基因，而拟杆菌和梭状芽胞杆菌是主要的细菌宿主。结果表明，即使在适当使用抗菌剂的情况下，牛瘤胃中也含有大量的应激反应基因，ARGs和移动组基因分布在大量宿主中。这三个官能团之间也有很高的相关性。关键词:抗性组，宏基因组，MG-RAST，应激基因，移动组

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International Journal of Livestock Production

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