| Literature DB >> 31654228 |
Dekang Zhu1,2, Zhishuang Yang1,2, Jinge Xu3, Mingshu Wang1,2,4, Renyong Jia1,2,4, Shun Chen1,2,4, Mafeng Liu1,2,4, Xinxin Zhao1,2,4, Qiao Yang1,2,4, Ying Wu1,2,4, Shaqiu Zhang1,2,4, Yunya Liu1,4, Ling Zhang1,4, Yanling Yu1,4, Xiaoyue Chen1,2, Anchun Cheng5,6,7.
Abstract
Riemerella anatipestifer is a gram-negative bacterium that leads to severe contagious septicemia in ducks, turkeys, chickens, and wild waterfowl. Here, a pan-genome with 32 R. anatipestifer genomes is re-established, and the mathematical model is calculated to evaluate the expansion of R. anatipestifer genomes, which were determined to be open. Average nucleotide identity (ANI) and phylogenetic analysis preliminarily clarify intraspecies variation and distance. Comparative genomic analysis of R. anatipestifer found that horizontal gene transfer events, which provide an expressway for the recruitment of novel functionalities and facilitate genetic diversity in microbial genomes, play a key role in the process of acquiring and transmitting antibiotic-resistance genes in R. anatipestifer. Furthermore, a new antibiotic-resistance gene cluster was identified in the same loci in 14 genomes. The uneven distribution of virulence factors was also confirmed by our results. Our study suggests that the ability to acquire foreign genes (such as antibiotic-resistance genes) increases the adaptability of R. anatipestifer, and the virulence genes with little mobility are highly conserved in R. anatipestifer.Entities:
Keywords: Antibiotic resistance; Genomic islands; Horizontal gene transfer (HGT); Pan-genome; Riemerella anatipestifer
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Year: 2019 PMID: 31654228 DOI: 10.1007/s10142-019-00715-x
Source DB: PubMed Journal: Funct Integr Genomics ISSN: 1438-793X Impact factor: 3.410