群体基因组学揭示了新出现的病原体索拉尼果胶杆菌中的加性和替代性水平基因转移。

Population genomics reveals additive and replacing horizontal gene transfers in the emerging pathogen Dickeya solani.

作者信息

Khayi Slimane, Blin Pauline, Pédron Jacques, Chong Teik-Min, Chan Kok-Gan, Moumni Mohieddine, Hélias Valérie, Van Gijsegem Frédérique, Faure Denis

机构信息

Institute for Integrative Biology of the Cell (I2BC), CNRS CEA Univ. Paris-Sud, Université Paris-Saclay, Saclay Plant Sciences, Avenue de la Terrasse, 91198, Gif-sur-Yvette cedex, France.

Université Moulay Ismaïl, Faculté des Sciences, Département de Biologie, Meknès, Morocco.

出版信息

BMC Genomics. 2015 Oct 14;16:788. doi: 10.1186/s12864-015-1997-z.

DOI:10.1186/s12864-015-1997-z

PMID:26467299

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4607151/

Abstract

BACKGROUND

Dickeya solani is an emerging pathogen that causes soft rot and blackleg diseases in several crops including Solanum tuberosum, but little is known about its genomic diversity and evolution.

RESULTS

We combined Illumina and PacBio technologies to complete the genome sequence of D. solani strain 3337 that was used as a reference to compare with 19 other genomes (including that of the type strain IPO2222(T)) which were generated by Illumina technology. This population genomic analysis highlighted an unexpected variability among D. solani isolates since it led to the characterization of two distinct sub-groups within the D. solani species. This approach also revealed different types of variations such as scattered SNP/InDel variations as well as replacing and additive horizontal gene transfers (HGT). Infra-species (between the two D. solani sub-groups) and inter-species (between D. solani and D. dianthicola) replacing HGTs were observed. Finally, this work pointed that genetic and functional variation in the motility trait could contribute to aggressiveness variability in D. solani.

CONCLUSIONS

This work revealed that D. solani genomic variability may be caused by SNPs/InDels as well as replacing and additive HGT events, including plasmid acquisition; hence the D. solani genomes are more dynamic than that were previously proposed. This work alerts on precautions in molecular diagnosis of this emerging pathogen.

摘要

背景

索拉尼果胶杆菌是一种新出现的病原体，可在包括马铃薯在内的多种作物中引起软腐病和黑胫病，但对其基因组多样性和进化了解甚少。

结果

我们结合了Illumina和PacBio技术，完成了索拉尼果胶杆菌3337菌株的基因组序列测定，并以此作为参考，与通过Illumina技术生成的其他19个基因组（包括模式菌株IPO2222(T)的基因组）进行比较。这种群体基因组分析突出了索拉尼果胶杆菌分离株之间出人意料的变异性，因为它导致了在索拉尼果胶杆菌物种内鉴定出两个不同的亚群。该方法还揭示了不同类型的变异，如分散的单核苷酸多态性/插入缺失变异以及替换和附加水平基因转移（HGT）。观察到种内（在两个索拉尼果胶杆菌亚群之间）和种间（在索拉尼果胶杆菌和石竹果胶杆菌之间）的替换型水平基因转移。最后，这项研究指出运动性特征的遗传和功能变异可能导致索拉尼果胶杆菌的致病力变异。

结论

这项研究表明，索拉尼果胶杆菌的基因组变异性可能是由单核苷酸多态性/插入缺失以及替换和附加水平基因转移事件（包括质粒获得）引起的；因此，索拉尼果胶杆菌的基因组比之前认为的更具动态性。这项研究提醒人们在对这种新出现的病原体进行分子诊断时要注意预防措施。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cc58/4607151/30b1f94bad14/12864_2015_1997_Fig1_HTML.jpg

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群体基因组学揭示了新出现的病原体索拉尼果胶杆菌中的加性和替代性水平基因转移。

Population genomics reveals additive and replacing horizontal gene transfers in the emerging pathogen Dickeya solani.

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