Ma Xing, Zhang Xiuyan, Stodghill Paul, Rioux Renee, Shrestha Smita, Babler Brooke, Rivedal Hannah, Frost Kenneth, Hao Jianjun, Secor Gary, Swingle Bryan
Plant Pathology and Plant-Microbe Biology Section, School of Integrative Plant Science, Cornell University, Ithaca, NY, United States.
School of Food and Agriculture, University of Maine, Orono, ME, United States.
Front Microbiol. 2024 Sep 16;15:1403121. doi: 10.3389/fmicb.2024.1403121. eCollection 2024.
Soft rot (SRP) bacteria are globally dispersed pathogens that cause significant economic loss in potato and other crops. Our understanding of the SRP species diversity has expanded in recent years due to advances and adoption of whole-genome sequence technologies. There are currently 34 recognized SRP species that belong to the and genera.
We used whole-genome sequencing based analysis to describe the current distribution and epidemiology of SRP isolated from diseased potato samples obtained from commercial potato cropping systems in the United States. Our primary objectives in the present study were to: (1) identify the species of these SRP isolates recovered from potato samples across 14 states in the US, (2) describe the variation among SRP isolates from various US locations and track their temporal changes, and (3) evaluate the evolutionary relationships among these SRP isolates to deduce their source. We collected 118 SRP strains from diseased potato plants and tubers in 14 states between 2015 and 2022.
We identified three and eight species from diseased potato samples. , , , and appeared to be the predominant species, constituting 83% of the isolates. Furthermore, all strains studied here as well as 90% of US isolates sequenced to date exhibit significant clonality.
The prevalence of this specific group of , temporally and geographically, aligns with the occurrence of blackleg and soft rot outbreaks in the northeastern US after 2014. The genomic diversity observed in implies multiple introductions to the US from at least four distinct sources, earlier than the arrival of the predominant group of . In contrast, and appear to be widespread, long-term endemic strains in the US.
软腐病(SRP)细菌是全球分布的病原体,会给马铃薯和其他作物造成重大经济损失。近年来,由于全基因组测序技术的进步和应用,我们对SRP物种多样性的认识有所扩展。目前有34种公认的SRP物种,隶属于[具体属名1]和[具体属名2]属。
我们采用基于全基因组测序的分析方法,来描述从美国商业马铃薯种植系统中患病马铃薯样本分离出的SRP的当前分布和流行病学情况。我们在本研究中的主要目标是:(1)鉴定从美国14个州的马铃薯样本中回收的这些SRP分离株的物种,(2)描述来自美国不同地点的SRP分离株之间的变异并追踪其时间变化,以及(3)评估这些SRP分离株之间的进化关系以推断其来源。我们在2015年至2022年期间从14个州的患病马铃薯植株和块茎中收集了118株SRP菌株。
我们从患病马铃薯样本中鉴定出3种[具体属名1]和8种[具体属名2]物种。[具体物种名1]、[具体物种名2]、[具体物种名3]和[具体物种名4]似乎是主要物种,占分离株的83%。此外,这里研究的所有[具体属名1]菌株以及迄今为止测序的美国[具体属名2]分离株的90%都表现出显著的克隆性。
这一特定组的[具体属名1]在时间和地理上的流行情况,与2014年后美国东北部黑胫病和软腐病爆发的情况一致。在[具体属名1]中观察到的基因组多样性意味着至少从四个不同来源多次引入美国,早于主要的[具体属名2]群体的到来。相比之下,[具体属名2]和[具体属名3]似乎是在美国广泛分布的长期地方流行菌株。
