基因组分析为葡萄根瘤菌(即农杆菌属葡萄亚种)的多样化和分类学提供了新的见解。
Genomic analysis provides novel insights into diversification and taxonomy of Allorhizobium vitis (i.e. Agrobacterium vitis).
机构信息
Julius Kühn Institute (JKI), Federal Research Centre for Cultivated Plants, Institute for Epidemiology and Pathogen Diagnostics, Messeweg 11-12, 38104, Braunschweig, Germany.
Present address, Julius Kühn Institute (JKI), Federal Research Centre for Cultivated Plants, Institute for Plant Protection in Horticulture and Forests, Messeweg 11-12, 38104, Braunschweig, Germany.
出版信息
BMC Genomics. 2022 Jun 22;23(1):462. doi: 10.1186/s12864-022-08662-x.
BACKGROUND
Allorhizobium vitis (formerly named Agrobacterium vitis or Agrobacterium biovar 3) is the primary causative agent of crown gall disease of grapevine worldwide. We obtained and analyzed whole-genome sequences of diverse All. vitis strains to get insights into their diversification and taxonomy.
RESULTS
Pairwise genome comparisons and phylogenomic analysis of various All. vitis strains clearly indicated that All. vitis is not a single species, but represents a species complex composed of several genomic species. Thus, we emended the description of All. vitis, which now refers to a restricted group of strains within the All. vitis species complex (i.e. All. vitis sensu stricto) and proposed a description of a novel species, All. ampelinum sp. nov. The type strain of All. vitis sensu stricto remains the current type strain of All. vitis, K309. The type strain of All. ampelinum sp. nov. is S4. We also identified sets of gene clusters specific to the All. vitis species complex, All. vitis sensu stricto and All. ampelinum, respectively, for which we predicted the biological function and infer the role in ecological diversification of these clades, including some we could experimentally validate. All. vitis species complex-specific genes confer tolerance to different stresses, including exposure to aromatic compounds. Similarly, All. vitis sensu stricto-specific genes confer the ability to degrade 4-hydroxyphenylacetate and a putative compound related to gentisic acid. All. ampelinum-specific genes have putative functions related to polyamine metabolism and nickel assimilation. Congruently with the genome-based classification, All. vitis sensu stricto and All. ampelinum were clearly delineated by MALDI-TOF MS analysis. Moreover, our genome-based analysis indicated that Allorhizobium is clearly separated from other genera of the family Rhizobiaceae.
CONCLUSIONS
Comparative genomics and phylogenomic analysis provided novel insights into the diversification and taxonomy of Allorhizobium vitis species complex, supporting our redefinition of All. vitis sensu stricto and description of All. ampelinum. Our pan-genome analyses suggest that these species have differentiated ecologies, each relying on specialized nutrient consumption or toxic compound degradation to adapt to their respective niche.
背景
Allorhizobium vitis(以前称为 Agrobacterium vitis 或 Agrobacterium 生物型 3)是引起葡萄冠瘿病的主要病原体。我们获得并分析了不同 All. vitis 菌株的全基因组序列,以深入了解其多样性和分类学。
结果
对各种 All. vitis 菌株的基因组比对和系统发育分析清楚地表明,All. vitis 不是一个单一的物种,而是代表一个由几个基因组物种组成的物种复合体。因此,我们修正了 All. vitis 的描述,现在它指的是 All. vitis 物种复合体中的一个受限菌株群(即 All. vitis 严格意义上的),并提出了一个新物种的描述,即 All. ampelinum sp. nov. All. vitis 严格意义上的模式菌株仍然是当前 All. vitis 的模式菌株 K309. All. ampelinum sp. nov 的模式菌株是 S4. 我们还分别鉴定了一组特定于 All. vitis 物种复合体、All. vitis 严格意义上的和 All. ampelinum 的基因簇,我们预测了这些进化枝的生物学功能,并推断了它们在生态多样化中的作用,其中一些我们可以通过实验验证。All. vitis 物种复合体特异性基因赋予了对不同应激的耐受性,包括暴露于芳香族化合物。同样,All. vitis 严格意义上的特异性基因赋予了降解 4-羟基苯乙酸和一种可能与龙胆酸有关的化合物的能力。All. ampelinum 特异性基因具有与多胺代谢和镍吸收相关的假定功能。与基于基因组的分类一致,All. vitis 严格意义上的和 All. ampelinum 通过 MALDI-TOF MS 分析清楚地区分。此外,我们的基于基因组的分析表明,Allorhizobium 明显与根瘤菌科的其他属分开。
结论
比较基因组学和系统发育分析为 Allorhizobium vitis 物种复合体的多样性和分类学提供了新的见解,支持了我们对 All. vitis 严格意义上的重新定义和 All. ampelinum 的描述。我们的泛基因组分析表明,这些物种具有不同的生态分化,每个物种都依赖于专门的营养消耗或有毒化合物降解来适应各自的生态位。
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