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Myxobacteria restrain Phytophthora invasion by scavenging thiamine in soybean rhizosphere via outer membrane vesiclesecreted thiaminase I

Nat Commun .. 2023-09; 
Chengyao Xia , Yuqiang Zhao , Lei Zhang , Xu Li , Yang Cheng , Dongming Wang , Changsheng Xu , Mengyi Qi , Jihong Wang , Xiangrui Guo , Xianfeng Ye , Yan Huang , Danyu Shen , Daolong Dou , Hui Cao , Zhoukun Li , Zhongli Cui
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Peptide Synthesis The peptide sequence CGGRPYPNQRFPENR derived from CcThi1 was synthesized to produce anti-CcThi1 antibodies by immunizing rabbits (GenScript, China), the peptide of CcThi1 shares 76.66% sequence identity with MxThi1 of DK1622 Get A Quote

摘要

Public metabolites such as vitamins play critical roles in maintaining the ecological functions of microbial community. However, the biochemical and physiological bases for fine-tuning of public metabolites in the microbiome remain poorly understood. Here, we examine the interactions between myxobacteria and Phytophthora sojae, an oomycete pathogen of soybean. We find that host plant and soil microbes complement P. sojae's auxotrophy for thiamine. Whereas, myxobacteria inhibits Phytophthora growth by a thiaminase I CcThi1 secreted into extracellular environment via outer membrane vesicles (OMVs). CcThi1 scavenges the required thiamine and thus arrests the thiamine sharing behavior of P. sojae from the supplier,... More

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