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KMID : 0880220170550070554
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Journal of Microbiology
2017 Volume.55 No. 7 p.554 ~ p.560
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Poly-¥ã-glutamic acid productivity of Bacillus subtilis BsE1 has positive function in motility and biocontrol against Fusarium graminearum
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Wang Luyao
Wang Ning
Mi Dandan
Luo Yuming
Guo Jianhua
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Abstract
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In this study, we investigate the relationship between ¥ã-PGA productivity and biocontrol capacity of Bacillus subtilis BsE1; one bacterial isolate displayed 62.14% biocontrol efficacy against Fusarium root rot. The ¥ã-PGA yield assay, motility assay, wheat root colonization assay, and biological control assay were analysed in different ¥ã-PGA yield mutants of BsE1. The pgsB (PGA-synthase-CapB gene) deleted mutant of BsE1 reduced ¥ã-PGA yield and exhibited apparent decline of in vitro motile ability. Deletion of pgsB impaired colonizing capacity of BsE1 on wheat root in 30 days, also lowered biocontrol efficacies from 62.08% (wild type BsE1) to 14.22% in greenhouse experiment against Fusarium root rot. The knockout of pgdS and ggt (genes relate to two ¥ã-PGA degrading enzymes) on BsE1, leads to a considerable improvement in polymer yield and biocontrol efficacy, which attains higher level compared with wild type BsE1. Compared with ¥ÄpgsB mutant, defense genes related to reactive oxygen species (ROS) and phytoalexin expressed changes by notable levels on wheat roots treated with BsE1, demonstrating the functional role ¥ã-PGA plays in biocontrol against Fusarium root rot. ¥ã-PGA is not only important to the motile and plant root colonization ability of BsE1, but also essential to the biological control performed by BsE1 against Fusarium root rot. Our goal in this study is to reveals a new perspective of BCAs screening on bacterial isolates, without good performance during pre-assays of antagonism ability.
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KEYWORD
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biocontrol, poly-¥ã-glutamic acid, motility, root colonization, Fusarium root rot
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