Antibacterial mechanism of Biochanin A and its efficacy for the control of Xanthomonas axonopodis pv. glycines in soybean
文献类型: 外文期刊
第一作者: Hu, Kai-Xuan
作者: Hu, Kai-Xuan;Shi, Xin-Chi;Xu, Dong;Laborda, Pedro;Wang, Su-Yan;Laborda, Pablo;Wu, Gui-Chun;Liu, Feng-Quan
作者机构:
关键词: Biochanin A; soybean; Xanthomonas axonopodis pv; glycines; bacterial pustule disease; antibacterial isoflavonoid
期刊名称:PEST MANAGEMENT SCIENCE ( 影响因子:4.845; 五年影响因子:4.674 )
ISSN: 1526-498X
年卷期: 2021 年 77 卷 4 期
页码:
收录情况: SCI
摘要: BACKGROUND Xanthomonas axonopodis pv. glycines (Xag) is a hazardous pathogen able to cause bacterial pustule disease in soybean, reducing crop yield and quality. Although flavonoids rutin and genistein are known to play an important role in soybean defence, soybean is only able to produce Biochanin A in low concentration. RESULTS In this work, Biochanin A was found to produce higher antibacterial activity against Xag in comparison with genistein (minimum inhibitory concentration < 100 mu g/mL). Biochanin A was able to inhibit DNA synthesis and flagella formation in Xag, and altered the composition of the bacterial membrane. These effects reduced swimming motility, extracellular protease activity and biofilm formation. Further, Biochanin A was tested for the control of Xag in soybean leaves, showing similar, or even higher, inhibitory ability in comparison with some products commonly used for the control of this pathogen. CONCLUSIONS The antibacterial properties of Biochanin A against Xag have been studied for the first time, revealing new insights on the potential applications of this isoflavonoid for the management of bacterial pustule disease.
分类号:
- 相关文献
作者其他论文 更多>>
-
DataColor: unveiling biological data relationships through distinctive color mapping
作者:He, Shuang;Zhang, Junyu;Yang, Shuting;Wang, Wenquan;Chen, Fei;He, Shuang;Zhang, Junyu;Yang, Shuting;Wang, Wenquan;Chen, Fei;Dong, Wei;Chen, Junhao;Lin, Weiwei;Xu, Dong;Zhou, Yuhan;Miao, Benben
关键词:
-
First Report of Bacterial Fruit Blotch Caused by Kosakonia cowanii on Trichosanthis fructus in Jiangsu Province, China
作者:Chen, Xian;Tang, Bao;Zhao, Yancun;Liu, Fengquan;Chen, Xian;Tang, Bao;Laborda, Pedro
关键词:bacterial fruit blotch; Kosakonia cowanii; Trichosanthis fructus
-
Mutation in PgABCC2 confers low-level resistance to Cry1Ac in pink bollworm
作者:Wang, Ling;Xu, Dong;Cong, Shengbo;Wan, Peng;Xu, Min;He, Lu;Liu, Kaiyu;Wei, Wei;Wan, Peng
关键词:Bacillus thuringiensis; pink bollworm; Cry1Ac; ABCC2; resistance mechanism
-
Haplotype-resolved chromosome-level genome of hexaploid Jerusalem artichoke provides insights into its origin, evolution, and inulin metabolism
作者:Wang, Sen;Wang, Anqi;Chen, Rong;Xu, Dong;Wang, Hengchao;Jiang, Fan;Liu, Hangwei;Qian, Wanqiang;Fan, Wei;Wang, Sen;Chen, Rong
关键词:Helianthus tuberosus; hexaploid genome; hybridization origin; chromosome rearrangement; inulin metabolism genes
-
Effects of temperature and nitrogen sources on physiological performance of the coccolithophore Emiliania huxleyi
作者:Wang, Zihao;Gu, Zhifeng;Wang, Zihao;Gu, Zhifeng;Tong, Shanying;Xu, Dong;Huang, Xintong;Sun, Yanmin;Wang, Bingkun;Sun, Haoming;Zhang, Xiaowen;Fan, Xiao;Wang, Wei;Sun, Ke;Wang, Yitao;Zhang, Pengyan;Ye, Naihao;Xu, Dong;Huang, Xintong;Sun, Yanmin;Wang, Bingkun;Sun, Haoming;Zhang, Xiaowen;Fan, Xiao;Wang, Wei;Sun, Ke;Wang, Yitao;Zhang, Pengyan;Ye, Naihao
关键词:Global warming; Emiliania huxleyi; Nitrogen sources; Elevated temperature; Photosynthesis
-
Impact of rutin on growth, development and oviposition of Bt-susceptible and Bt-resistant pink bollworm
作者:Wang, Ling;Xu, Dong;Cong, Shengbo;Li, Wenjing;Yang, Nina;Yin, Haichen;Jin, Lirong;Wu, Huaiheng;Wan, Peng;Yang, Yi;Liu, Weiguo
关键词:Bt resistance; cross-resistance; pink bollworm; plant secondary metabolites; rutin
-
The genomes of Dahlia pinnata, Cosmos bipinnatus, and Bidens alba in tribe Coreopsideae provide insights into polyploid evolution and inulin biosynthesis
作者:Wang, Hengchao;Xu, Dong;Jiang, Fan;Wang, Sen;Wang, Anqi;Liu, Hangwei;Lei, Lihong;Qian, Wanqiang;Fan, Wei
关键词:Coreopsideae; Dahlia pinnata; Cosmos bipinnatus; Bidens alba; whole genome duplication; inulin
