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Adaptive evolution of rhizobial symbiotic compatibility mediated by co-evolved insertion sequences.


ABSTRACT: Mutualism between bacteria and eukaryotes has essential roles in the history of life, but the evolution of their compatibility is poorly understood. Here we show that different Sinorhizobium strains can form either nitrogen-fixing nodules or uninfected pseudonodules on certain cultivated soybeans, while being all effective microsymbionts of some wild soybeans. However, a few well-infected nodules can be found on a commercial soybean using inocula containing a mixed pool of Tn5 insertion mutants derived from an incompatible strain. Reverse genetics and genome sequencing of compatible mutants demonstrated that inactivation of T3SS (type three secretion system) accounted for this phenotypic change. These mutations in the T3SS gene cluster were dominated by parallel transpositions of insertion sequences (ISs) other than the introduced Tn5. This genetic and phenotypic change can also be achieved in an experimental evolution scenario on a laboratory time scale using incompatible wild-type strains as inocula. The ISs acting in the adaptive evolution of Sinorhizobium strains exhibit broader phyletic and replicon distributions than other ISs, and prefer target sequences of low GC% content, a characteristic feature of symbiosis plasmid where T3SS genes are located. These findings suggest an important role of co-evolved ISs in the adaptive evolution of rhizobial compatibility.

SUBMITTER: Zhao R 

PROVIDER: S-EPMC5738999 | biostudies-literature | 2018 Jan

REPOSITORIES: biostudies-literature

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Adaptive evolution of rhizobial symbiotic compatibility mediated by co-evolved insertion sequences.

Zhao Ran R   Liu Li Xue LX   Zhang Yun Zeng YZ   Jiao Jian J   Cui Wen Jing WJ   Zhang Biliang B   Wang Xiao Lin XL   Li Meng Lin ML   Chen Yi Y   Xiong Zhu Qing ZQ   Chen Wen Xin WX   Tian Chang Fu CF  

The ISME journal 20170811 1


Mutualism between bacteria and eukaryotes has essential roles in the history of life, but the evolution of their compatibility is poorly understood. Here we show that different Sinorhizobium strains can form either nitrogen-fixing nodules or uninfected pseudonodules on certain cultivated soybeans, while being all effective microsymbionts of some wild soybeans. However, a few well-infected nodules can be found on a commercial soybean using inocula containing a mixed pool of Tn5 insertion mutants  ...[more]

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2021-10-25 | GSE184426 | GEO