农科机构知识库联盟

Comparative proteomic analysis of cucumber roots infected by Fusarium oxysporum f. sp cucumerium Owen

文献类型：外文期刊

第一作者： Zhang, Di

作者： Zhang, Di;Hao, Yu Han;Fan, Hai Yan;Cui, Na;Wang, Shan Shan;Fan, Hai Yan;Meng, Ke Xin;Song, Tie Feng

作者机构：

关键词： Cucumis sativus;Fusarium wilt;2-DE;Mass spectrum identification;Root proteomics

期刊名称：PHYSIOLOGICAL AND MOLECULAR PLANT PATHOLOGY （影响因子：2.747；五年影响因子：2.388 ）

ISSN：

年卷期：

页码：

收录情况： SCI

摘要： Cucumber Fusarium wilt (CFW), caused by the soil-borne fungus Fusarium oxysporum f. sp. cucumerium, is a serious disease in cucumber (Cucumis sativus) production worldwide. For the efficient control of the pathogenic fungi, a better understanding of its interaction and associated resistance mechanisms at the molecular level is required. Here, we report a comparative proteomics analysis of total root protein isolated from infected cucumber root of susceptible bulk (SB) and resistant bulk (RB) of cucumber generation F2. Two-dimensional gel electrophoresis (2-DE) coupled with MS/MS approaches identified 15 over-accumulated proteins from the RB plants. Identified proteins are mainly involved in defense and stress responses, oxidation reduction, metabolism and transport and other process. These proteins are likely to be a part of resistance-related protein network, playing different roles in cucumber disease resistance. Three vital clues regarding wilt resistance of C. sativus are gained from this study. First, jasmonic acid and redox signaling components were found in response to F. oxysporum infection in resistant plants. Second, the LRR family protein may play an important role in the defense reaction against CFW. Third, biotic and abiotic stress-related proteins were induced by the CFW fungus F. oxysporum, indicating the activation of common stress pathway. (C) 2016 Elsevier Ltd. All rights reserved.

分类号： S432.1

相关文献

[1]Short- and long-term effects of ultra-drying on germination and growth of vegetable seeds. Shen, D,Qi, XQ. 1998

[2]The expression patterns of Cucumis sativus WRKY (CsWRKY) family under the condition of inoculation with Phytophthora melonis in disease resistant and susceptible cucumber cultivars. Xu, Xiaomei,Wang, Rui,Chao, Juan,Lin, Yu'e,Jin, Qingmin,He, Xiaoming,Luo, Shaobo,Wu, Tingquan,Xu, Xiaomei,Wang, Rui,Chao, Juan,Lin, Yu'e,Jin, Qingmin,He, Xiaoming,Luo, Shaobo,Wu, Tingquan. 2015

[3]beta-tubulin accumulation and DNA synthesis are sequentially resumed in embryo organs of cucumber (Cucumis sativus L.) seeds during germination. Jing, HC,van Lammeren, AAM,de Castro, RD,Bino, RJ,Hilhorst, HWM,Groot, SPC. 1999

[4]Inheritance and QTL mapping of resistance to gummy stem blight in cucumber stem. Zhang, Shengping,Liu, Shulin,Miao, Han,Shi, Yanxia,Wang, Min,Wang, Ye,Li, Baoju,Gu, Xingfang.

[5]Allelopathic effects of Hemistepta lyrata on the germination and growth of wheat, sorghum, cucumber, rape, and radish seeds. Gao, Xingxiang,Li, Mei,Gao, Zongjun,Li, Changsong,Sun, Zuowen.

[6]Impact of arbuscular mycorrhizal fungi (AMF) on cucumber growth and phosphorus uptake under cold stress. Ma, Jun,Zou, Zhirong,Ma, Jun,Li, Yansu,Yu, Xianchang,Yan, Yan,He, Chaoxing,Janouskova, Martina.

[7]Proteome-level investigation of Cucumis sativus-derived resistance to Sphaerotheca fuliginea. Fan, Haiyan,Ren, Liping,Meng, Xiangnan,Yu, Yang,Fan, Haiyan,Song, Tiefeng,Meng, Kexin.

[8]Brassinosteroids are involved in response of cucumber (Cucumis sativus) to iron deficiency. Wang, Baolan,Zhang, Wen-Hao,Li, Yansu. 2012

[9]Glutathione-dependent induction of local and systemic defense against oxidative stress by exogenous melatonin in cucumber (Cucumis sativus L.). Li, Hao,He, Jie,Yang, Xiaozhen,Luo, Dan,Wei, Chunhua,Ma, Jianxiang,Zhang, Yong,Yang, Jianqiang,Zhang, Xian,Li, Xin. 2016

[10]A 1,681-locus consensus genetic map of cultivated cucumber including 67 NB-LRR resistance gene homolog and ten gene loci. Yang, Luming,Li, Dawei,Li, Yuhong,Weng, Yiqun,Li, Dawei,Li, Yuhong,Gu, Xingfang,Huang, Sanwen,Garcia-Mas, Jordi,Weng, Yiqun. 2013

[11]Endogenous salicylic acid accumulation is required for chilling tolerance in cucumber (Cucumis sativus L.) seedlings. Dong, Chun-Juan,Li, Liang,Shang, Qing-Mao,Liu, Xin-Yan,Zhang, Zhi-Gang.

[12]Genetic Mapping of the Scab Resistance Gene in Cucumber. Zhang, Shengping,Miao, Han,Gu, Xing-fang,Yang, Yuhong,Xie, Bingyan,Wang, Xiaowu,Huang, Sanwen,Du, Yongchen,Sun, Rifei,Wehner, Todd C.. 2010

[13]Responses of miRNAs and their target genes to nitrogen- or phosphorus-deficiency in grafted cucumber seedlings. Li, Chaohan,Yu, Xianchang,Bai, Longqiang,He, Chaoxing,Li, Yansu,Li, Chaohan.

[14]Cucumis sativus L-type lectin receptor kinase (CsLecRK) gene family response to Phytophthora melonis, Phytophthora capsici and water immersion in disease resistant and susceptible cucumber cultivars. Wu, Tingquan,Wang, Rui,Xu, Xiaomei,He, Xiaoming,Sun, Baojuan,Zhong, Yujuan,Liang, Zhaojuan,Luo, Shaobo,Lin, Yu'e,Wu, Tingquan,Wang, Rui,Xu, Xiaomei,He, Xiaoming,Sun, Baojuan,Zhong, Yujuan,Liang, Zhaojuan,Luo, Shaobo.

[15]An ACCUMULATION AND REPLICATION OF CHLOROPLASTS 5 gene mutation confers light green peel in cucumber. Wang, Shenhao,Hu, Bowen,Zhang, Zhonghua,Huang, Sanwen,Zhou, Qian,Huang, Sanwen,Chen, Huiming. 2015

[16]A comparative cell wall proteomic analysis of cucumber leaves under Sphaerotheca fuliginea stress. Meng, Xiangnan,Fan, Haiyan,Yu, Yang,Cui, Na,Song, Tiefeng,Zhao, Juyong,Fan, Haiyan,Meng, Kexin.

[17]Distribution of Baseline Sensitivities to Natural Product Physcion Among Isolates of Sphaerotheca fuliginea and Pseudoperonospora cubensis. Yang, X. J.,Ni, H.,Yang, X. J.,Yang, L. J.,Zeng, F. S.,Xiang, L. B.,Wang, S. N.,Yu, D. Z..

[18]Identification of differentially expressed proteins between bull X and Y spermatozoa. Chen, Xiaoli,Zhu, Huabin,Hao, Haisheng,Zhao, Xueming,Du, Weihua,Qin, Tong,Liu, Yan,Wang, Dong,Chen, Xiaoli,Wu, Chengjiang,Han, Weidong. 2012

[19]Comparative Proteomic Analysis Reveals Differential Root Proteins in Medicago sativa and Medicago truncatula in Response to Salt Stress. Long, Ruicai,Zhang, Tiejun,Kang, Junmei,Cong, Lili,Gao, Yanli,Yang, Qingchuan,Li, Mingna,Sun, Yan,Liu, Fengqi. 2016

[20]Proteomic analysis of responsive root proteins of Fusarium oxysporum-infected watermelon seedlings. Zhang, Man,Xu, Jinhua,Liu, Guang,Yao, Xiefeng,Ren, Runsheng,Yang, Xingping. 2018

作者其他论文更多>>

Advances in aggregation-induced emission fluorescent probes for reactive sulfur species detection

作者：Zhang, Qianqian;Zhang, Zezhi;Liu, Jin;Song, Ajuan;Li, Chengwei;Yang, Xiaopeng;Zhang, Di;Ye, Yong

关键词：Fluorescent probe; Aggregation-induced emission; Reactive Sulfur species; Detection
Structure dependence of the enhanced sulfur tolerance of core-shell CoMn oxides for benzene oxidation: Discrepant sulfur species and less affected reactant activation

作者：Liu, Yang;Cheng, Lin;Zhang, Di;Zhan, Jingjing;Shan, Jiajia;Zhou, Hao;Yi, Xianliang;Li, Zhonghong;Shen, Xudong

关键词：VOCs; Catalytic oxidation; Manganese oxide; Cobalt decoration; Sulfur resistance
A naphthimide based fluorescent probe for the detection of thiophenols and its application in actual water and food

作者：Zhang, Di;Duan, Ran;Zhou, Xiaohua;Shi, Jiacheng;Chen, He;Guo, Jie;Li, Man;Wang, Tieliang;Wu, Xujin;Ma, Zhiwei;Shi, Jiacheng

关键词：Thiophenol; Fluorescence probe; Off-on; Water; Food
Editing the RR-TZF Gene Subfamily in Rice Uncovers Potential Risks of CRISPR/Cas9 for Targeted Genetic Modification

作者：Zhou, Shufen;Lu, Xiaozhuan;Wu, Weiren;Zhou, Shufen;Tian, Dagang;Liu, Huaqing;Zhang, Di;Chen, Rui;Yang, Shaohua;Wang, Feng

关键词：CRISPR/Cas9; RR-TZF gene subfamily; rice (Oryza sativa L.); off-target effects; inheritable mutagenicity
Powerful combination: a genome editing system to improve efficiency of breeding inducer and haploid sorting in maize

作者：Xia, Hanchao;Yin, Yuejia;Zhang, Chuang;Chen, Ziqi;Liu, Xiangguo;Xia, Hanchao;Zhang, Di;Zhao, Rengui;Liu, Xiangguo;Qu, Yanzhi;Jiang, Shurong;Wang, Xinqi;Xu, Jieting

关键词：haploid; MoDsRed2; inducer line; genome-editing; Zea mays
Identification and Expression Profiles Reveal Key Myelocytomatosis (MYC) Involved in Drought, Chilling, and Salt Tolerance in Solanum lycopersicum

作者：Kang, Chenchen;Cui, Na;Bi, Shiquan;Wu, Zhongfen;Shao, Meini;Qu, Bo;Cui, Na;Zhao, Baozhen;Zou, Qingdao;Zhang, Yiming

关键词：functional analysis; MYC family genes; tomato; abiotic stresses
Haplotype analysis and molecular marker development of the COLD1 for cold stress tolerance at the germination stage in rice

作者：Yu, Jianghui;Suo, Shaoran;Zhou, Huang;Li, Wenyu;Zhang, Di;Li, Lingling;Wang, Zhijun;Ding, Xiaoping;Liu, Citao;Duan, Meijuan;Yu, Jianghui;Suo, Shaoran;Zhou, Huang;Li, Wenyu;Zhang, Di;Li, Lingling;Wang, Zhijun;Ding, Xiaoping;Yuan, Dingyang;Liu, Citao;Duan, Meijuan;Duan, Meijuan;Yuan, Dingyang;Yu, Jianghui

关键词：Rice; Cold stress; Haplotype; Molecular marker; COLD1

Comparative proteomic analysis of cucumber roots infected by Fusarium oxysporum f. sp cucumerium Owen

作者其他论文 更多>>

Advances in aggregation-induced emission fluorescent probes for reactive sulfur species detection

Structure dependence of the enhanced sulfur tolerance of core-shell CoMn oxides for benzene oxidation: Discrepant sulfur species and less affected reactant activation

A naphthimide based fluorescent probe for the detection of thiophenols and its application in actual water and food

Editing the RR-TZF Gene Subfamily in Rice Uncovers Potential Risks of CRISPR/Cas9 for Targeted Genetic Modification

Powerful combination: a genome editing system to improve efficiency of breeding inducer and haploid sorting in maize

Identification and Expression Profiles Reveal Key Myelocytomatosis (MYC) Involved in Drought, Chilling, and Salt Tolerance in Solanum lycopersicum

Haplotype analysis and molecular marker development of the COLD1 for cold stress tolerance at the germination stage in rice

作者其他论文更多>>