Antifungal mechanism of Bacillus amyloliquefaciens strain GKT04 against Fusarium wilt revealed using genomic and transcriptomic analyses

Dandan Tian; Xiupeng Song; Chaosheng Li; Wei Zhou; Liuyan Qin; Liping Wei; Wei Di; Sumei Huang; Baoshen Li; Quyan Huang; Shengfeng Long; Zhangfei He; Shaolong Wei

doi:10.1002/mbo3.1192

MicrobiologyOpen (Jun 2021)

Antifungal mechanism of Bacillus amyloliquefaciens strain GKT04 against Fusarium wilt revealed using genomic and transcriptomic analyses

Dandan Tian,
Xiupeng Song,
Chaosheng Li,
Wei Zhou,
Liuyan Qin,
Liping Wei,
Wei Di,
Sumei Huang,
Baoshen Li,
Quyan Huang,
Shengfeng Long,
Zhangfei He,
Shaolong Wei

Affiliations

Dandan Tian: Biotechnology Research Institute Guangxi Academy of Agricultural Sciences Nanning China
Xiupeng Song: Sugarcane Research Institute Guangxi Academy of Agricultural Sciences Nanning China
Chaosheng Li: Biotechnology Research Institute Guangxi Academy of Agricultural Sciences Nanning China
Wei Zhou: Biotechnology Research Institute Guangxi Academy of Agricultural Sciences Nanning China
Liuyan Qin: Biotechnology Research Institute Guangxi Academy of Agricultural Sciences Nanning China
Liping Wei: Biotechnology Research Institute Guangxi Academy of Agricultural Sciences Nanning China
Wei Di: Biotechnology Research Institute Guangxi Academy of Agricultural Sciences Nanning China
Sumei Huang: Biotechnology Research Institute Guangxi Academy of Agricultural Sciences Nanning China
Baoshen Li: Biotechnology Research Institute Guangxi Academy of Agricultural Sciences Nanning China
Quyan Huang: Biotechnology Research Institute Guangxi Academy of Agricultural Sciences Nanning China
Shengfeng Long: Biotechnology Research Institute Guangxi Academy of Agricultural Sciences Nanning China
Zhangfei He: Biotechnology Research Institute Guangxi Academy of Agricultural Sciences Nanning China
Shaolong Wei: Biotechnology Research Institute Guangxi Academy of Agricultural Sciences Nanning China

DOI: https://doi.org/10.1002/mbo3.1192
Journal volume & issue: Vol. 10, no. 3
pp. n/a – n/a

Abstract

Read online

Abstract The application of endophytic bacteria, particularly members of the genus Bacillus, offers a promising strategy for the biocontrol of plant fungal diseases, owing to their sustainability and ecological safety. Although multiple secondary metabolites that demonstrate antifungal capacity have been identified in diverse endophytic bacteria, the regulatory mechanisms of their biosynthesis remain largely unknown. To elucidate this, we sequenced the entire genome of Bacillus amyloliquefaciens GKT04, a strain isolated from banana root, which showed high inhibitory activity against Fusarium oxysporum f. sp. cubense race 4 (FOC4). The GKT04 genome consists of a circular chromosome and a circular plasmid, which harbors 4,087 protein‐coding genes and 113 RNA genes. Eight gene clusters that could potentially encode antifungal components were identified. We further applied RNA‐Seq analysis to survey genome‐wide changes in the gene expression of strain GKT04 during its inhibition of FOC4. In total, 575 upregulated and 242 downregulated genes enriched in several amino acid and carbohydrate metabolism pathways were identified. Specifically, gene clusters associated with difficidin, bacillibactin, and bacilysin were significantly upregulated, and their gene regulatory networks were constructed. Our work thereby provides insights into the genomic features and gene expression patterns of this B. amyloliquefaciens strain, which presents an excellent potential for the biocontrol of Fusarium wilt.

Published in MicrobiologyOpen

ISSN: 2045-8827 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Science: Microbiology
Website: https://onlinelibrary.wiley.com/journal/20458827

About the journal

Abstract

Keywords