Genetic engineering of the Xa10 promoter for broad-spectrum and durable resistance to Xanthomonas oryzae pv. oryzae

文献类型: 外文期刊

第一作者: Zeng, Xuan

作者: Zeng, Xuan;Tian, Dongsheng;Gu, Keyu;Zhou, Zhiyun;Yang, Xiaobei;Luo, Yanchang;Yin, Zhongchao;Zeng, Xuan;Yin, Zhongchao;Luo, Yanchang;White, Frank F.;Yin, Zhongchao

作者机构:

关键词: Rice;Xa10;TAL effector;Xanthomonas oryzae pv;oryzae;bacterial blight;R gene

期刊名称:PLANT BIOTECHNOLOGY JOURNAL ( 影响因子:9.803; 五年影响因子:9.555 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Many pathovars of plant pathogenic bacteria Xanthomonas species inject transcription activator-like (TAL) effectors into plant host cells to promote disease susceptibility or trigger disease resistance. The rice TAL effector-dependent disease resistance gene Xa10 confers narrow-spectrum race-specific resistance to Xanthomonas oryzae pv. oryzae (Xoo), the causal agent of bacterial blight disease in rice. To generate broad-spectrum and durable resistance to Xoo, we developed a modified Xa10 gene, designated as Xa10(E5). Xa10(E5) has an EBE-amended promoter containing 5 tandemly arranged EBEs each responding specifically to a corresponding virulent or avirulent TAL effector and a stable transgenic rice line containing Xa10(E5) was generated in the cultivar Nipponbare. The Xa10(E5) gene was specifically induced by Xoo strains that harbour the corresponding TAL effectors and conferred TAL effector-dependent resistance to the pathogens at all developmental stages of rice. Further disease evaluation demonstrated that the Xa10(E5) gene in either Nipponbare or 9311 genetic backgrounds provided broad-spectrum disease resistance to 27 of the 28 Xoo strains collected from 11 countries. The development of Xa10(E5) and transgenic rice lines provides new genetic materials for molecular breeding of rice for broad-spectrum and durable disease resistance to bacterial blight.

分类号: Q7

  • 相关文献

[1]A ten gene-containing genomic island determines flagellin glycosylation: implication for its regulatory role in motility and virulence of Xanthomonas oryzae pv. oryzae. Chen, Huamin,Tian, Fang,Yang, Fenghuan,He, Chenyang,Yuan, Xiaochen,Yang, Ching-Hong. 2018

[2]Activity of a novel bactericide, zinc thiazole against Xanthomonas oryzae pv. oryzae in Anhui Province of China. Chen, Y.,Yang, X.,Gu, C-Y.,Zhang, A-F.,Zhang, Y.,Wang, W-X.,Gao, T-C.,Yao, J.,Yuan, S-K.,Chen, Y.,Yang, X.,Gu, C-Y.,Zhang, A-F.,Zhang, Y.,Wang, W-X.,Gao, T-C.,Chen, Y.,Yang, X.,Gu, C-Y.,Zhang, A-F.,Zhang, Y.,Wang, W-X.,Gao, T-C..

[3]Comparative transcriptome profiling of a rice line carrying Xa39 and its parents triggered by Xanthomonas oryzae pv. oryzae provides novel insights into the broad-spectrum hypersensitive response. Zhang, Fan,Huang, Li-Yu,Zhang, Fan,Zhuo, Da-Long,Li, Zhi-kang,Zhou, Yong-Li,Huang, Li-Yu,Ali, Jauhar,Cruz, Casiana Vera,Du, Zheng-Lin. 2015

[4]XA23 Is an Executor R Protein and Confers Broad-Spectrum Disease Resistance in Rice. Wang, Chunlian,Zhang, Xiaoping,Fan, Yinglun,Gao, Ying,Zheng, Chongke,Qin, Tengfei,Li, Yanqiang,Che, Jinying,Zhang, Mingwei,Zhao, Kaijun,Zhu, Qinlong,Liu, Yaoguang,Yang, Bing. 2015

[5]The broad bacterial blight resistance of rice line CBB23 is triggered by a novel transcription activator-like (TAL) effector of Xanthomonas oryzae pv. oryzae. Wang, Chun-Lian,Qin, Teng-Fei,Zhang, Xiao-Ping,Che, Jin-Ying,Gao, Ying,Zheng, Chong-Ke,Zhao, Kai-Jun,Wang, Chun-Lian,Yu, Hong-Man,Yang, Bing. 2014

[6]Marker-assisted breeding of Indonesia local rice variety Siputeh for semi-dwarf phonetype, good grain quality and disease resistance to bacterial blight. Luo, Yanchang,Yin, Zhongchao,Zakaria, Sabaruddin,Basyah, Bakhtiar,Luo, Yanchang,Ma, Tingchen,Li, Zefu,Yang, Jianbo,Yin, Zhongchao. 2014

[7]Identification of Quantitative Trait Loci for Bacterial Blight Resistance Derived from Oryza meyeriana and Agronomic Traits in Recombinant Inbred Lines of Oryza sativa. Chen, Li-Na,Yang, Yong,Yan, Cheng-Qi,Wang, Ming,Yu, Chu-Lang,Zhou, Jie,Cheng, Ye,Cheng, Xiao-Yue,Chen, Jian-Ping,Chen, Li-Na,Zhang, Wei-Lin,Cheng, Xiao-Yue. 2012

[8]Transgenic rice plants overexpressing BBTI4 confer partial but broad-spectrum bacterial blight resistance. Hu, Songnian,Pang, Zhiqian,Zhou, Zhuangzhi,Yin, Dedong,Lv, Qiming,Wang, Lixiang,Wang, Jing,Li, Xiaobing,Zhao, Xianfeng,Jiang, Guanghuai,Zhu, Lihuang,Pang, Zhiqian,Lv, Qiming,Xu, Xiao,Lan, Jinping,Liu, Guozhen. 2013

[9]Genetic Overlap in the Quantitative Resistance of Rice at the Seedling and Adult Stages to Xanthomonas oryzae pv. oryzae. Zhou, Yong-Li,Xie, Xue-Wen,Xu, Mei-Rong,Zang, Jin-Ping,Zhu, Ling-Hua,Xu, Jian-Long,Li, Zhi-Kang,Li, Zhi-Kang.

[10]Identification and expression analysis of components involved in rice Xa21-mediated disease resistance signalling. Bai, H.,Gan, Q.,Zhu, L. H.,Bai, H.,Bai, H.,Cao, Y. H.,Wu, L.,Lan, J. P.,Wang, X. Y.,Hou, M. M.,Li, L. Y.,Liu, L. J.,Liu, G. Z.,Hao, Y. J.,Yin, C. C..

[11]Pyramiding blast, bacterial blight and brown planthopper resistance genes in rice restorer lines. Ji Zhi-juan,Qian Qian,Ji Zhi-juan,Zeng Yu-xiang,Liang Yang,Yang Chang-deng,Qian Qian,Yang Shu-dong. 2016

[12]ASSESSMENT OF A FUNCTIONAL MARKER FOR BACTERIAL BLIGHT RESISTANCE GENE LOCUS Xa 27IN RICE. Yu, P.,Yuan, X. P.,Wang, C. H.,Xu, Q.,Feng, Y.,Yu, H. Y.,Wang, Y. P.,Wei, X. H.,Wang, X. M..

[13]SEQUENCE VARIATIONS AND HAPLOTYPES OF THE BACTERIAL BLIGHT RESISTANCE GENE xa13 IN RICE. Yu, P.,Yuan, X. P.,Wang, C. H.,Xu, Q.,Feng, Y.,Yu, H. Y.,Wang, Y. P.,Wei, X. H.,Wang, X. M..

[14]Xa39, a novel dominant gene conferring broad-spectrum resistance to Xanthomonas oryzae pv. oryzae in rice. Zhang, F.,Zhuo, D. -L.,Zhang, F.,Huang, L. -Y.,Wang, W. -S.,Xu, J. -L.,Li, Z. -K.,Zhou, Y. -L.,Xu, J. -L.,Li, Z. -K.,Zhou, Y. -L.,Vera Cruz, C..

[15]Heterologous Expression of the Cotton NBS-LRR Gene GbaNA1 Enhances Verticillium Wilt Resistance in Arabidopsis. Li, Nan-Yang,Zhou, Lei,Zhang, Dan-Dan,Li, Ting-Gang,Gui, Yue-Jing,Kong, Zhi-Qiang,Ma, Xue-Feng,Zhang, Wen-Qi,Li, Jun-Jiao,Chen, Jie-Yin,Dai, Xiao-Feng,Klosterman, Steven J.,Short, Dylan P. G.,Subbarao, Krishna V.. 2018

[16]The last half-repeat of transcription activator-like effector (TALE) is dispensable and thereby TALE-based technology can be simplified. Zheng, Chong-Ke,Wang, Chun-Lian,Zhang, Xiao-Ping,Wang, Fu-Jun,Qin, Teng-Fei,Zhao, Kai-Jun.

[17]Secretome analysis of rice suspension-cultured cells infected by Xanthomonas oryzae pv. oryza (Xoo). Chen, Xian,Chen, Xian,Deng, Zhiping,Yu, Chulang,Yan, Chengqi,Chen, Jianping. 2016

[18]Detecting major QTL associated with resistance to bacterial blight using a set of rice reciprocal introgression lines with high density SNP markers. Zhang, Fan,Xu, Meirong,Wang, Wensheng,Xu, Jianlong,Zhou, Yongli,Li, Zhikang,Xie, Xuewen,Li, Zhikang,Xu, Jianlong,Zhou, Yongli.

[19]RFLP mapping and race specificity of bacterial blight resistance genes (QTLs) in rice. Luo, LJ,Mei, HW,Zhao, XH,Zhong, DB,Wang, YP,Yu, XQ,Ying, CS,Li, ZK,Paterson, AH,Wang, DL,Tabien, RE,Zhu, L,Stansel, JW.

[20]FLAVONOIDS ACCUMULATE IN CELL WALLS, MIDDLE LAMELLAE AND CALLOSE-RICH PAPILLAE DURING AN INCOMPATIBLE INTERACTION BETWEEN XANTHOMONAS CAMPESTRIS PV MALVACEARUM AND COTTON. Dai, GH,Nicole, M,Andary, C,Martinez, C,Bresson, E,Boher, B,Daniel, JF,Geiger, JP.

作者其他论文 更多>>

微信小程序