Gene transcription analysis during interaction between potato and Ralstonia solanacearum

文献类型: 外文期刊

第一作者: Li, G. C.

作者: Li, G. C.;Jin, L. P.;Wang, X. W.;Xie, K. Y.;Huang, S. W.;Qu, D. Y.;Li, G. C.;Yang, Y.;van der Vossen, E. A. G.

作者机构:

关键词: Solanum tuberosum;Ralstonia solanacearum;bacterial wilt;suppression subtractive hybridization;cDNA macroarray;EST

期刊名称:RUSSIAN JOURNAL OF PLANT PHYSIOLOGY ( 影响因子:1.481; 五年影响因子:1.608 )

ISSN: 1021-4437

年卷期: 2010 年 57 卷 5 期

页码:

收录情况: SCI

摘要: Bacterial wilt (BW) caused by Ralstonia solanacearum (Rs) is an important quarantine disease that spreads worldwide and infects hundreds of plant species. The BW defense response of potato is a complicated continuous process, which involves transcription of a battery of genes. The molecular mechanisms of potato-Rs interactions are poorly understood. In this study, we combined suppression subtractive hybridization and macroarray hybridization to identify genes that are differentially expressed during the incompatible interaction between Rs and potato. In total, 302 differentially expressed genes were identified and classified into 12 groups according to their putative biological functions. Of 302 genes, 81 were considered as Rs resistance-related genes based on the homology to genes of known function, and they have putative roles in pathogen recognition, signal transduction, transcription factor functioning, hypersensitive response, systemic acquired resistance, and cell rescue and protection. Additionally, 50 out of 302 genes had no match or low similarity in the NCBI databases, and they may represent novel genes. Of seven interesting genes analyzed via RNA gel blot and semi-quantitative RT-PCR, six were induced, one was suppressed, and all had different transcription patterns. The results demonstrate that the response of potato against Rs is rapid and involves the induction of numerous various genes. The genes identified in this study add to our knowledge of potato resistance to Rs.

分类号:

  • 相关文献

[1]Phenotypic evaluation of the Chinese mini-mini core collection of peanut (Arachis hypogaea L.) and assessment for resistance to bacterial wilt disease caused by Ralstonia solanacearum. Jiang, Huifang,Ren, Xiaoping,Chen, Yuning,Huang, Li,Zhou, Xiaojing,Huang, Jiaquan,Liao, Boshou,Froenicke, Lutz,Yu, Jiujiang,Guo, Baozhu. 2013

[2]Identification and Genetic Characterization of Ralstonia solanacearum Species Complex Isolates from Cucurbita maxima in China. She, Xiaoman,Yu, Lin,Lan, Guobing,Tang, Yafei,He, Zifu,She, Xiaoman,He, Zifu. 2017

[3]New Insights into the Antibacterial Activity of Hydroxycoumarins against Ralstonia solanacearum. Yang, Liang,Ding, Wei,Wu, Dousheng,Li, Shili,Chen, Juanni,Guo, Bing,Xu, Yuquan.

[4]Chryseobacterium nankingense sp nov WR21 effectively suppresses Ralstonia solanacearum growth via intensive root exudates competition. Wei, Zhong,Hu, Jie,Yang, Chunlan,Gu, Yi'an,Mei, Xinlan,Shen, Qirong,Xu, Yangchun,Huang, Jianfeng,Riaz, Kashif.

[5]Identification and Functional Analysis of Differentially Expressed Genes of Ascaris suum Goeze, 1782 from Ascaris lumbricoides Linnaeus, 1758. Zhu Xing-quan,Wu Shao-qiang,Lin Xiang-mei. 2010

[6]Development of a specific molecular tool for the detection of epidemiologically active mulberry causing-disease strains of Ralstonia solanacearum phylotype I (historically race 5-biovar 5) in China. Xu, J.,Xu, J. S.,Zhang, H.,Chen, K. Y.,Tian, Q.,Zhang, L. Q.,Liu, L.,He, L. Y.,Feng, J.,Prior, P.,Pan, Z. C..

[7]Extended expression of B-class MADS-box genes in the paleoherb Asarum caudigerum. Zhao, Yin-He,Yang, Jun-Bo,Dong, Li-Na,Li, De-Zhu,Zhao, Yin-He,Li, Cheng-Yun,Zhao, Yin-He,Li, Cheng-Yun,Moeller, Michael,Liu, Ting-Song,Zhao, Jin-Feng,Zhang, Jin-Peng,Wang, Guo-Ying.

[8]Overexpression of a novel peanut NBS-LRR gene AhRRS5 enhances disease resistance to Ralstonia solanacearum in tobacco. Chen, Hua,Cai, Tiecheng,Deng, Ye,Zhuang, Weijian,Zhang, Chong,Chen, Hua,Cai, Tiecheng,Deng, Ye,Zhuang, Ruirong,Zhang, Ning,Zeng, Yuanhuan,Zheng, Yixiong,Zhuang, Weijian,Zheng, Yixiong,Tang, Ronghua,Pan, Ronglong,Pan, Ronglong. 2017

[9]Small RNA and Degradome Deep Sequencing Reveals Peanut MicroRNA Roles in Response to Pathogen Infection. Zhao, Chuanzhi,Xia, Han,Zhao, Shuzhen,Hou, Lei,Zhang, Ye,Li, Changsheng,Wang, Xingjun,Zhao, Chuanzhi,Xia, Han,Zhao, Shuzhen,Hou, Lei,Zhang, Ye,Li, Changsheng,Wang, Xingjun,Cao, Tingjie,Zhang, Xinyou,Yang, Yu.

[10]Bacterial Wilt in China: History, Current Status, and Future Perspectives. Ding, Wei,Wei, Zhong,Xu, Jin,Chen, Huilan,Chen, Huilan,Zhang, Yong,She, Xiaoman,Macho, Alberto P.,Liao, Boshou. 2017

[11]Loop-Mediated Isothermal Amplification Method for the Rapid Detection of Ralstonia solanacearum Phylotype I Mulberry Strains in China. Zhang, Hao,Xu, Jingsheng,Wang, Shuai,Kong, Xiangjiu,Xu, Jin,Feng, Jie,Huang, Wen,Ding, Wei. 2017

[12]Application of biochar reduces Ralstonia solanacearum infection via effects on pathogen chemotaxis, swarming motility, and root exudate adsorption. Gu, Yian,Hou, Yugang,Huang, Dapeng,Hao, Zhexia,Wang, Xiaofang,Wei, Zhong,Jousset, Alexandre,Shen, Qirong,Xu, Yangchun,Jousset, Alexandre,Tan, Shiyong,Xu, Dabing,Friman, Ville-Petri.

[13]Generation of double-virus-resistant marker-free transgenic potato plants. Bai, Yunfeng,Guo, Zhihua,Wang, Xiaoqi,Bai, Dongmei,Zhang, Weifeng. 2009

[14]Genome-wide analysis of the Solanum tuberosum (potato) trehalose-6-phosphate synthase (TPS) gene family: evolution and differential expression during development and stress. Xu, Yingchun,Wang, Yanjie,Jin, Qijiang,Mattson, Neil,Yang, Liu. 2017

[15]Phenotypic and Genotypic Characterization of Phytophthora infestans Isolates from China. Li, Benjin,Chen, Qinghe,Lv, Xin,Lan, Chengzhong,Zhao, Jian,Qiu, Rongzhou,Weng, Qiyong.

[16]Differential gene expression as an indicator of nitrogen sufficiency in field-grown potato plants. Tai, Helen,De Koeyer, David,Li, Xiu-Qing,Luo, Sainan,Xiong, Xingyao,Millard, Pete. 2011

[17]Isolation and characterization of the organ-specific and light-inducible promoter of the gene encoding rubisco activase in potato (Solanum tuberosum). Qu, D.,Song, Y.,Li, W. M.,Pei, X. W.,Wang, Z. X.,Jia, S. R.,Zhang, Y. Q.. 2011

[18]Effect of Nitrogen Form on Gene Expression in Leaf Tissue of Greenhouse Grown Potatoes During Three Stages of Growth. Tai, Helen,De Koeyer, David,Li, Xiu-Qing,Luo, Sainan,Millard, Pete,Xiong, Xingyao. 2012

[19]DEVELOPMENT OF THREE-VITRIFICATION-BASED CRYOPRESERVATION PROCEDURES FOR SHOOT TIPS OF CHINA'S POTATO. Wang, Biao,Wang, Ren-rui,Li, Jing-wei,Ma, Yan-li,Wang, Qiao-chun,Wang, Ren-rui,Li, Min-fu,Sheng, Wan-min. 2013

[20]THE DIFFERENTIAL GENE EXPRESSION OF KEY ENZYME IN THE GIBBERELLIN PATHWAY IN THE POTATO (SOLANUM TUBEROSUM) MUTANT M4P-9. Shi, Jian-Bin,Ye, Guang-Ji,Yang, Yong-Zhi,Wang, Fang,Zhou, Yun,Sun, Hai-Hong,Wang, Jian,Ye, Guang-Ji,Yang, Yong-Zhi,Wang, Fang,Zhou, Yun,Sun, Hai-Hong,Wang, Jian,Ye, Guang-Ji,Yang, Yong-Zhi,Wang, Fang,Zhou, Yun,Sun, Hai-Hong,Wang, Jian,Ye, Guang-Ji,Yang, Yong-Zhi,Wang, Fang,Zhou, Yun,Sun, Hai-Hong,Wang, Jian,Ye, Guang-Ji,Yang, Yong-Zhi,Wang, Fang,Zhou, Yun,Sun, Hai-Hong,Wang, Jian. 2016

作者其他论文 更多>>

微信小程序