费氏中华根瘤菌中含羞草共生变种的基因组基础。

Genomic basis of symbiovar mimosae in Rhizobium etli.

作者信息

Rogel Marco A, Bustos Patricia, Santamaría Rosa I, González Víctor, Romero David, Cevallos Miguel Ángel, Lozano Luis, Castro-Mondragón Jaime, Martínez-Romero Julio, Ormeño-Orrillo Ernesto, Martínez-Romero Esperanza

机构信息

Ecological Genomics programs, Genomics Science Center, CCG, Cuernavaca, Morelos, Mexico.

出版信息

BMC Genomics. 2014 Jul 8;15(1):575. doi: 10.1186/1471-2164-15-575.

DOI:10.1186/1471-2164-15-575

PMID:25005495

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4125696/

Abstract

BACKGROUND

Symbiosis genes (nod and nif) involved in nodulation and nitrogen fixation in legumes are plasmid-borne in Rhizobium. Rhizobial symbiotic variants (symbiovars) with distinct host specificity would depend on the type of symbiosis plasmid. In Rhizobium etli or in Rhizobium phaseoli, symbiovar phaseoli strains have the capacity to form nodules in Phaseolus vulgaris while symbiovar mimosae confers a broad host range including different mimosa trees.

RESULTS

We report on the genome of R. etli symbiovar mimosae strain Mim1 and its comparison to that from R. etli symbiovar phaseoli strain CFN42. Differences were found in plasmids especially in the symbiosis plasmid, not only in nod gene sequences but in nod gene content. Differences in Nod factors deduced from the presence of nod genes, in secretion systems or ACC-deaminase could help explain the distinct host specificity. Genes involved in P. vulgaris exudate uptake were not found in symbiovar mimosae but hup genes (involved in hydrogen uptake) were found. Plasmid pRetCFN42a was partially contained in Mim1 and a plasmid (pRetMim1c) was found only in Mim1. Chromids were well conserved.

CONCLUSIONS

The genomic differences between the two symbiovars, mimosae and phaseoli may explain different host specificity. With the genomic analysis presented, the term symbiovar is validated. Furthermore, our data support that the generalist symbiovar mimosae may be older than the specialist symbiovar phaseoli.

摘要

背景

参与豆科植物结瘤和固氮的共生基因（nod和nif）在根瘤菌中由质粒携带。具有不同宿主特异性的根瘤菌共生变体（共生变种）取决于共生质粒的类型。在菜豆根瘤菌或菜豆根瘤菌中，菜豆共生变种菌株能够在普通菜豆中形成根瘤，而含羞草共生变种具有广泛的宿主范围，包括不同的含羞草树。

结果

我们报道了菜豆根瘤菌含羞草共生变种菌株Mim1的基因组，并将其与菜豆根瘤菌菜豆共生变种菌株CFN42的基因组进行了比较。在质粒中发现了差异，特别是在共生质粒中，不仅在nod基因序列上，而且在nod基因含量上。从nod基因的存在推导的Nod因子、分泌系统或ACC脱氨酶的差异可能有助于解释不同的宿主特异性。在含羞草共生变种中未发现参与普通菜豆分泌物吸收的基因，但发现了hup基因（参与氢吸收）。质粒pRetCFN42a部分包含在Mim1中，并且仅在Mim1中发现了一个质粒（pRetMim1c）。染色体相对保守。

结论

含羞草和菜豆这两个共生变种之间的基因组差异可能解释了不同的宿主特异性。通过所呈现的基因组分析，共生变种这一术语得到了验证。此外，我们的数据支持泛宿主型的含羞草共生变种可能比专宿主型的菜豆共生变种更古老。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0748/4125696/a97fec42a63e/12864_2013_6331_Fig1_HTML.jpg

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费氏中华根瘤菌中含羞草共生变种的基因组基础。

Genomic basis of symbiovar mimosae in Rhizobium etli.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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