Research Status and Prospect of Burkholderia glumae, the Pathogen Causing Bacterial Panicle Blight

文献类型: 外文期刊

第一作者: Cui Zhou-qi

作者: Cui Zhou-qi;Xie Guan-lin;Li Bin;Zhu Bo;Huang Shi-wen

作者机构:

关键词: bacterial panicle blight;Burkholderia glumae;pathogenesis;genomics;transcriptomics;rice

期刊名称:RICE SCIENCE ( 影响因子:3.333; 五年影响因子:4.226 )

ISSN: 1672-6308

年卷期: 2016 年 23 卷 3 期

页码:

收录情况: SCI

摘要: Bacterial panicle blight caused by Burkholderia glumae is one of the most severe seed-borne bacterial diseases of rice in the world. Currently, this disease has affected many countries of Asia, Africa, South and North America. It is a typical example of the shifting from minor plant disease to major disease due to the changes of environmental conditions. Some virulent factors of B. glumae have been identified, including toxoflavins and lipases, whose productions are dependent on the TofI/TofR quorum-sensing system, and type III effectors. In spite of its economic significance, neither effective control measure for this disease nor resistant rice variety is currently available. In recent years, genomics, transcriptomics and other molecular methods have provided useful information for better understanding the molecular mechanisms underlying B. glumae virulence and the rice defence mechanisms against pathogens. For the prevention of this pathogen, our laboratory has developed a rapid and sensitive multiplex PCR assay for detecting and distinguishing B. glumae from other Burkholderia species. This improved understanding of B. glumae will shed new light on bacterial panicle blight disease management.

分类号:

  • 相关文献

[1]Infection Process of Burkholderia glumae Before Booting Stage of Rice. Li, Lu,Li, Qi-Qin,Huang, Shi-Wen,Li, Lu,Wang, Ling,Liu, Lian-Meng,Hou, Yu-Xuan,Huang, Shi-Wen.

[2]Application of resequencing to rice genomics, functional genomics and evolutionary analysis. Guo, Longbiao,Gao, Zhenyu,Qian, Qian. 2014

[3]Genetic, Molecular and Genomic Basis of Rice Defense against Insects. Chen, Hao,Chen, Feng,Stout, Michael J.,Qian, Qian. 2012

[4]Chromosome elimination, addition and introgression in intertribal partial hybrids between Brassica rapa and Isatis indigotica. Tu, Yuqin,Sun, Jian,Ge, Xianhong,Li, Zaiyun,Sun, Jian.

[5]Identification of Metabolites and Transcripts Involved in Salt Stress and Recovery in Peanut. Cui, Feng,Liu, Yiyang,Han, Yan,Wan, Shubo,Li, Guowei,Cui, Feng,Liu, Yiyang,Han, Yan,Wan, Shubo,Li, Guowei,Sui, Na,Liu, Shanshan,Duan, Guangyou. 2018

[6]Combined transcriptomic and proteomic analysis constructs a new model for light-induced anthocyanin biosynthesis in eggplant (Solanum melongena L.). Li, Jing,Ren, Li,Gao, Zhen,Jiang, Mingmin,Liu, Yang,Zhou, Lu,He, Yongjun,Chen, Huoying,Ren, Li.

[7]Elevated CO2 improves lipid accumulation by increasing carbon metabolism in Chlorella sorokiniana. Sun, Zhilan,Chen, Yi-Feng,Du, Jianchang.

[8]TRANSCRIPTOME ANALYSIS OF AN ENDOPARASITOID WASP Cotesia chilonis (HYMENOPTERA: BRACONIDAE) REVEALS GENES INVOLVED IN SUCCESSFUL PARASITISM. Qi, Yixiang,Teng, Ziwen,Gao, Lingfeng,Wu, Shunfan,Huang, Jia,Ye, Gongyin,Fang, Qi,Qi, Yixiang,Teng, Ziwen,Gao, Lingfeng,Wu, Shunfan,Huang, Jia,Ye, Gongyin,Fang, Qi,Ye, Gongyin,Fang, Qi.

[9]Transcriptome analysis of gene expression patterns during embryonic development in golden cuttlefish (Sepia esculenta). Bian, Li,Liu, Changlin,Chen, Siqing,Zhao, Fazhen,Ge, Jianlong,Tan, Jie. 2018

[10]Transcriptome profiling and comparison of maize ear heterosis during the spikelet and floret differentiation stages. Hu, Xiaojiao,Wang, Hongwu,Diao, Xizhou,Liu, Zhifang,Li, Kun,Wu, Yujin,Liang, Qianjin,Wang, Hui,Huang, Changling. 2016

[11]Flower Development and Sex Determination between Male and Female Flowers in Vernicia fordii. Mao, Yingji,Liu, Wenbo,Chen, Xue,Lu, Weili,Hou, Jinyan,Ni, Jun,Wang, Yuting,Wu, Lifang,Mao, Yingji,Liu, Wenbo,Chen, Xue,Lu, Weili,Wang, Yuting,Wu, Lifang,Xu, Yang,Lu, Weili,Wang, Yuting. 2017

[12]Seed Transcriptomics Analysis in Camellia oleifera Uncovers Genes Associated with Oil Content and Fatty Acid Composition. Wang, Kailiang,Yao, Xiaohua,Yin, Hengfu,Zhou, Changfu,Xie, Yunhai. 2018

[13]Novel insights into the molecular mechanisms underlying the resistance of Camellia sinensis to Ectropis oblique provided by strategic transcriptomic comparisons. Wang, Dan,Li, Chun-Fang,Ma, Chun-Lei,Chen, Liang.

[14]The Protein Elicitor PevD1 Enhances Resistance to Pathogens and Promotes Growth in Arabidopsis. Khan, Najeeb Ullah,Wang, Ningbo,Yang, Xiufen,Qiu, Dewen. 2016

[15]Genome-wide transcriptomic analysis of a superior biomass-degrading strain of A-fumigatus revealed active lignocellulose-degrading genes. Miao, Youzhi,Liu, Dongyang,Li, Guangqi,Li, Pan,Xu, Yangchun,Shen, Qirong,Zhang, Ruifu,Miao, Youzhi,Liu, Dongyang,Li, Guangqi,Li, Pan,Xu, Yangchun,Shen, Qirong,Zhang, Ruifu,Zhang, Ruifu. 2015

[16]Metabolomics and transcriptomics reveal the toxicity of difenoconazole to the early life stages of zebrafish (Danio rerio). Teng, Miaomiao,Zhu, Wentao,Wang, Dezhen,Wang, Yao,Yan, Jin,Zheng, Mingqi,Wang, Chengju,Qi, Suzhen,Dong, Kai. 2018

[17]Transcriptomics analysis of the flowering regulatory genes involved in the herbicide resistance of Asia minor bluegrass (Polypogon fugax). Zhou, Fengyan,Zhang, Yong,Wang, Mei,Gao, Tongchun,Tang, Wei. 2017

[18]Soybean Omics and Biotechnology in China. Guo, Yong,Wang, Xiao-Bo,He, Wei,Zhou, Guo-An,Guo, Bing-Fu,Zhang, Le,Liu, Zhang-Xiong,Luo, Zhong-Qin,Wang, Li-Hui,Qiu, Li-Juan. 2011

[19]Heterologous expression and transcript analysis of gibberellin biosynthetic genes of grasses reveals novel functionality in the GA3ox family. Pearce, Stephen,Dubcovsky, Jorge,Huttly, Alison K.,Prosser, Ian M.,Li, Yi-Dan,Vaughan, Simon P.,Gallova, Barbora,Patil, Archana,Hedden, Peter,Phillips, Andrew L.,Li, Yi-Dan,Coghill, Jane A.,Dubcovsky, Jorge. 2015

[20]Analyses of the Molecular Mechanisms Associated with Silk Production in Silkworm by iTRAQ-Based Proteomics and RNA-Sequencing-Based Transcriptomics. Wang, Shaohua,You, Zhengying,Che, Jiaqian,Zhang, Yuyu,Qian, Qiujie,Zhong, Boxiong,Feng, Mao,Komatsu, Setsuko.

作者其他论文 更多>>

微信小程序