Transgenic rice plants overexpressing BBTI4 confer partial but broad-spectrum bacterial blight resistance

文献类型: 外文期刊

第一作者: Hu, Songnian

作者: 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

作者机构:

关键词: Bacterial blight;Bowman-Birk type bran trypsin inhibitor;Disease resistance;Rice

期刊名称:JOURNAL OF PLANT BIOLOGY ( 影响因子:2.434; 五年影响因子:2.455 )

ISSN: 1226-9239

年卷期: 2013 年 56 卷 6 期

页码:

收录情况: SCI

摘要: Plant Bowman-Birk type bran trypsin inhibitors (BBTI) belong to a family of serine protease inhibitors that inhibit trypsin activity and play roles in plant development and defense responses to both biotic and abiotic stresses. In this study, transgenic rice plants overexpressing BBTI4 (OXBBTI4) were generated. Reverse-transcription polymerase chain reaction and western blot (WB) analysis demonstrated that the BBTI4 mRNA and protein levels were significantly increased in OX-BBTI4. Notably, two BBTI4 protein forms with different molecular weight (18 kD and 28 kD) were revealed by WB analysis. In non-transgenic plants, BBTI4-28kD and BBTI4-18kD were mainly expressed in roots and leaves, respectively, while in transgenic OX-BBTI4 plants, both protein forms were expressed constitutively. Subcellular analysis revealed that BBTI4 is localized in the cytosol. Moreover, Xanthomonas oryzae pv. oryzae (Xoo) inoculation experiments demonstrated that transgenic OX-BBTI4 rice plants conferred partial but broad-spectrum Xoo resistance. In OX-BBTI4 transgenic rice plants, the expression of OsPR3 and OsPR10a proteins was induced and gradually increased after Xoo infection, while the expression of OsPR1a, OsPR1b and OsPR-pha remained unchanged. Taken together, these results suggest that BBTI4 may play a role in rice resistance to Xoo, and OsPR3 and OsPR10a may be involved in the OX-BBTI4-dependent partial Xoo resistance response.

分类号:

  • 相关文献

[1]Marker-assisted breeding of Xa4, Xa21 and Xa27 in the restorer lines of hybrid rice for broad-spectrum and enhanced disease resistance to bacterial blight. Luo, Yanchang,Sangha, Jatinder S.,Yin, Zhongchao,Luo, Yanchang,Wang, Shouhai,Li, Zefu,Yang, Jianbo.

[2]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

[3]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

[4]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.

[5]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..

[6]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

[7]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..

[8]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..

[9]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..

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

[11]Transcriptome profiling of the spl5 mutant reveals that SPL5 has a negative role in the biosynthesis of serotonin for rice disease resistance. Jin, Bin,Zhou, Xinru,Jiang, Baolin,Gu, Zhimin,Zhang, Pinghua,Chen, Xifeng,Ma, Bojun,Qian, Qian. 2015

[12]Functional analysis of rice NPR1-like genes reveals that OsNPR1/NH1 is the rice orthologue conferring disease resistance with enhanced herbivore susceptibility. Yuan, Yuexing,Zhong, Sihui,Li, Qun,Zhu, Zengrong,Lou, Yonggen,Wang, Linyou,Wang, Jianjun,Wang, Muyang,Li, Qiaoli,Yang, Donglei,He, Zuhua. 2007

[13]Characterization and Genetic Analysis of a Light-and Temperature-sensitive Spotted-leaf Mutant in Rice. Huang, Qi-Na,Shi, Yong-Feng,Yang, Yang,Feng, Bao-Hua,Wei, Yan-Lin,Chen, Jie,Wu, Jian-Li,Huang, Qi-Na,Yang, Yang,Wei, Yan-Lin,Baraoidan, Marietta,Leung, Hei. 2011

[14]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

[15]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.

[16]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.

[17]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.

[18]A comprehensive quantitative phosphoproteome analysis of rice in response to bacterial blight. Hou, Yuxuan,Qiu, Jiehua,Tong, Xiaohong,Wei, Xiangjin,Huang, Shiwen,Zhang, Jian,Nallamilli, Babi R.,Wu, Weihuai. 2015

[19]Identification of QTLs underlying resistance to a virulent strain of Xanthomonas oryzae pv. oryzae in rice cultivar DV85. Wang, CM,Su, CC,Zhai, HQ,Wan, JM. 2005

[20]Pathogenesis-related proteins in somatic hybrid rice induced by bacterial blight. Yu, Chu L.,Wang, Chang C.,Hu, Hai T.,Yang, Ling,Yan, Shun P.,Sun, Wei N.,Yan, Cheng Q.,Chen, Jian P.. 2008

作者其他论文 更多>>

微信小程序