梨火疫病菌的比较基因组分析揭示了系统发育排列、质粒多样性和链霉素抗性方面的新见解。

Comparative genomic analysis of Erwinia amylovora reveals novel insights in phylogenetic arrangement, plasmid diversity, and streptomycin resistance.

作者信息

Parcey Michael, Gayder Steven, Morley-Senkler Vivian, Bakkeren Guus, Úrbez-Torres José Ramón, Ali Shawkat, Castle Alan J, Svircev Antonet M

机构信息

Centre for Biotechnology, Brock University, St. Catharines, ON L2S 3A1, Canada; Agriculture and Agri-Food Canada, Vineland Station, ON L0R 2E0, Canada.

Agriculture and Agri-Food Canada, Summerland, BC V0H 1Z0, Canada.

出版信息

Genomics. 2020 Sep;112(5):3762-3772. doi: 10.1016/j.ygeno.2020.04.001. Epub 2020 Apr 4.

DOI:10.1016/j.ygeno.2020.04.001

PMID:32259573

Abstract

Erwinia amylovora is a destructive pathogen of Rosaceous plants and an economic concern worldwide. Herein, we report 93 new E. amylovora genomes from North America, Europe, the Mediterranean, and New Zealand. This new genomic information demonstrates the existence of three primary clades of Amygdaloideae (apple and pear) infecting E. amylovora and suggests all three independently originate from North America. The comprehensive sequencing also identified and confirmed the presence of 7 novel plasmids ranging in size from 2.9 to 34.7 kbp. While the function of the novel plasmids is unknown, the plasmids pEAR27, pEAR28, and pEAR35 encoded for type IV secretion systems. The strA-strB gene pair and the K43R point mutation at codon 43 of the rpsL gene have been previously documented to confer streptomycin resistance. Of the sequenced isolates, rpsL-based streptomycin resistance was more common and was found with the highest frequency in the Western North American clade.

摘要

梨火疫病菌是蔷薇科植物的一种毁灭性病原菌，也是全球关注的一个经济问题。在此，我们报告了来自北美、欧洲、地中海地区和新西兰的93个新的梨火疫病菌基因组。这些新的基因组信息表明，存在三个感染梨火疫病菌的扁桃亚科（苹果和梨）主要进化枝，并表明这三个进化枝均独立起源于北美。全面测序还鉴定并确认了7种大小在2.9至34.7 kbp之间的新型质粒的存在。虽然这些新型质粒的功能尚不清楚，但质粒pEAR27、pEAR28和pEAR35编码IV型分泌系统。strA-strB基因对以及rpsL基因第43位密码子处的K43R点突变先前已被证明可赋予链霉素抗性。在测序的分离株中，基于rpsL的链霉素抗性更为常见，并且在北美西部进化枝中出现的频率最高。

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梨火疫病菌的比较基因组分析揭示了系统发育排列、质粒多样性和链霉素抗性方面的新见解。

Comparative genomic analysis of Erwinia amylovora reveals novel insights in phylogenetic arrangement, plasmid diversity, and streptomycin resistance.

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