Genome identification and biocontrol potential against citrus blue mold of Bacillus velezensis w176
文献类型: 外文期刊
第一作者: Tian, Zhonghuan
作者: Tian, Zhonghuan;Du, Yujie;Lu, Yongqing;Ji, Sirong;Long, Chao-an;Long, Chao-an;Long, Chao-an
作者机构:
关键词: Citrus; Biocontrol; Penicillium italicum; Bacillus velezensis; Postharvest
期刊名称:FOOD CONTROL ( 影响因子:6.0; 五年影响因子:5.8 )
ISSN: 0956-7135
年卷期: 2023 年 154 卷
页码:
收录情况: SCI
摘要: Citrus fruit is susceptible to Penicillium mold infection. Biocontrol with utilization of antagonistic microorganisms against postharvest diseases is regarded as an effective and eco-friendly approach in citrus fruit storage. Here, the complete genome of biocontrol strain w176 was obtained with a full length of 3,929,790 bp, and it consists of 12 potential gene clusters which might be responsible for antagonistic metabolites biosynthesis, strain w176 was identified as Bacillus velezensis by genome alignments eventually. Meanwhile, strong restrictions of spore germination rate (SGR) and hyphae elongation were detected when strain w176 was co-incubated with P. italicum, the inhibitory of SGR at 6 h, 9 h and 12 h was 10.00%, 49.59% and 23.53%, respectively. And the inhibitory of hyphae elongation was 35.56% at 12 h. It was also found that strain w176 exhibited notable growth space competition in the co-incubation. Moreover, significantly enhanced activities of catalase and chitinase in citrus fruit were presented 2 d and 3 d post-inoculation with strain w176. Further, citrus fruit treated by strain w176 PDB culture (PBC) or its culture filtrate (CFS) displayed significantly reduced virulence of P. italicum contamination, the decreased disease symptoms of CFS and PBC were 30.32% and 85.22%, individually. The inhibitory disease rate of PBC was 25%. This study reveals that strain w176 has high potential to be applied as bio-pesticide in citrus preservation. The data attained in this research might be helpful for citrus blue mold control, and could provide basis for the bio-preservation study in postharvest fruit.
分类号:
- 相关文献
作者其他论文 更多>>
-
PdMesA regulates polar growth, cell wall integrity, and full virulence in Penicillium digitatum of citrus
作者:Liu, Shuqi;Liu, Xinying;Lai, Weiqiang;Lu, Yongqing;Wang, Yuqing;Long, Chao -an;Long, Chao -an;Long, Chao -an
关键词:Penicillium digitatum; PdMesA; Hyphal polarity; Cell wall integrity; Virulence
-
Butylated hydroxyanisole controls anthracnose on postharvest citrus fruit by inducing autophagosome formation in Colletotrichum gloeosporioides
作者:Wang, Yuqing;Ji, Sirong;Chen, Xiao;Liu, Shuqi;Zhao, Juan;Long, Chao-an;Long, Chao-an;Long, Chao-an
关键词:Citrus; Anthracnose; Butylated hydroxyanisole; Autophagy; ROS; Membrane integrity
-
Exploration of the antimicrobial activities of biocontrol agent Streptomyces strain h114 against Penicillium digitatum in citrus
作者:Tian, Zhonghuan;Du, Yujie;Lu, Yongqing;Zhu, Jinfan;Long, Chao-an;Long, Chao-an;Long, Chao-an;Long, Chao-an
关键词:Citrus; Biocontrol; Streptomyces monashensis h114; Penicillium digitatum; Antimicrobial activity
-
Postharvest biocontrol ability and antagonistic mechanism of Bacillus altitudins h217 against Penicillium digitatum in citrus
作者:Lu, Yongqing;Liu, Shuqi;Wang, Yuqing;Yang, Fan;Tian, Zhonghuan;Long, Chao-an;Long, Chao-an;Long, Chao-an
关键词:Citrus; Penicillium digitatum; Bacillus altitudins h217; ROS; VOCs
-
Methylparaben suppresses the citrus postharvest pathogen Penicillium digitatum by undermining the cell wall and membrane and inducing the antioxidant system
作者:Yang, Fan;Yang, Fan;Zhong, Xiuying;Wang, Yuqing;Zhao, Juan;Lu, Yongqing;Long, Chao-an;Long, Chao-an;Long, Chao-an
关键词:Citrus; Penicillium digitatum; Methylparaben; Inhibitory mechanism
-
PdGpaA controls the growth and virulence of Penicillium digitatum by regulating cell wall reorganization, energy metabolism, and CDWEs production
作者:Du, Yujie;Zhu, Jinfan;Zhang, Wan;Chen, Xiao;Yang, Fan;Tian, Zhonghuan;Long, Chao-an;Long, Chao-an;Long, Chao-an
关键词:G & alpha; protein; Cell wall integrity; ROS; Pathogenicity; Fungicide sensitivity; CDWEs
-
Calcium disodium edetate controls citrus green mold by chelating Mn2+and targeting pyruvate synthesis in the pathogen
作者:Yang, Fan;Liu, Shuqi;Tian, Zhonghuan;Du, Yujie;Zhang, Deyao;Long, Chao-an;Long, Chao-an;Long, Chao-an
关键词:Citrus; Penicillium digitatum; EDTA-Na2Ca; Pyruvate synthesis; Manganese ion chelation
