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地黄连作胁迫响应机制的块根蛋白质组学分析
引用本文:吴林坤,陈军,吴红淼,王娟英,秦贤金,张重义,林文雄. 地黄连作胁迫响应机制的块根蛋白质组学分析[J]. 作物学报, 2016, 42(2): 243-254. DOI: 10.3724/SP.J.1006.2016.00243
作者姓名:吴林坤  陈军  吴红淼  王娟英  秦贤金  张重义  林文雄
作者单位:1.福建农林大学生命科学学院, 福建福州 350002;2.福建省农业生态过程与安全监控重点实验室, 福建福州 350002
基金项目:本研究由国家自然科学基金项目(81303170),国家自然基金联合基金项目(U1205021)和福建农林大学优秀博士学位论文基金(324-1122yb005) 资助。
摘    要:地黄种植过程中存在严重的连作障碍问题,连作导致块根无法正常膨大、产量品质下降、土传病害严重等。本研究以正、重茬地黄块根为试验材料,通过差异蛋白质组学技术分析连作下地黄块根蛋白质表达谱变化,并进一步采用qRT-PCR技术对锁定的差异蛋白质表达量变化进行验证分析。研究结果发现,连作导致与块根重要生理代谢过程和主要成分合成相关的蛋白质都下调表达,与蛋白质折叠相关的伴侣素(chaperonin)在重茬地黄块根中全部下调表达;连作下与胁迫响应、抵御相关的蛋白质(如pathogenesis-related protein 10, cytochrome P450, Type IIIa membrane protein cp-wap13等)均上调表达。qRT-PCR定量分析证实重茬地黄块根中PR-10基因表达量显著高于正茬地黄;PR-10基因在尖孢镰刀菌病原菌侵染下能够明显被诱导表达,表达量随着侵染时间的增加而逐渐升高,验证了差异蛋白质组学分析的结果。可见连作胁迫对地黄块根蛋白质表达谱有显著影响,导致蛋白质表达紊乱,连作植株生理代谢过程异常,碳水化合物和能量代谢缓慢,产生连作障碍效应。

关 键 词:地黄  连作障碍  差异蛋白质组学  病程相关蛋白  胁迫响应  
收稿时间:2015-05-27

Comparative Proteomics Analysis of R. glutinosa Tuber Root in Response to Consecutive Monoculture
WU Lin-Kun,CHEN Jun,WU Hong-Miao,WANG Juan-Ying,QIN Xian-Jin,ZHANG Zhong-Yi,LIN Wen-Xiong. Comparative Proteomics Analysis of R. glutinosa Tuber Root in Response to Consecutive Monoculture[J]. Acta Agronomica Sinica, 2016, 42(2): 243-254. DOI: 10.3724/SP.J.1006.2016.00243
Authors:WU Lin-Kun  CHEN Jun  WU Hong-Miao  WANG Juan-Ying  QIN Xian-Jin  ZHANG Zhong-Yi  LIN Wen-Xiong
Affiliation:1.College of Life Sciences, Fujian Agriculture and Forestry University, Fuzhou 350002, China;2.Fujian Provincial Key Laboratory of Agroecological Processing and Safety Monitoring / Fujian Agriculture and Forestry University, Fuzhou 350002, China
Abstract:Rehmannia glutinosa L. is widely applied in Chinese medicine. However, consecutive monocropping of this plant results in serious decline in both biomass and quality of underground tubers, with poor field performance and insufficient resistance to disease and pest. In the present study, the tuber roots from the newly planted (NP) and consecutively monocropped (SM) R. glutinosa were used through comparative proteomics analysis to study the response of R. glutinosa to consecutive monocropping and the underlying mechanisms of replanting disease. Comparative proteomics analysis showed that these proteins involved in important physiological processes and biosynthese of main components in tuber roots were significantly down-regulated under consecutive monocropping regime.It was also found that chaperonins related to protein folding was down-expressed with the extended monocropping. However, these proteins related to stress response/defense such as pathogenesis-related protein 10, cytochrome P450 and Type IIIa membrane protein cp-wap13 were up-regulated in consecutively monocropped R. glutinosa. Quantitative analysis by qRT-PCR confirmed the up-regulation of PR-10 responding to consecutive monocropping or the infection of pathogenic Fusarium oxysporum. Moreover, PR-10 was gradually up-regulated with the increasing days of infection. In conclusion, consecutive monocropping of R. glutinosa greatly affects the expression profile of proteome in tuber roots. These abnormally expressed proteins might lead to the metabolic disturbances and low energy production. Moreover, the limited energy is applied to resist the external environmental stresses, resulting in significant decline in the growth of tuber roots and the accumulation of active ingredients.
Keywords:Rehmannia glutinosa  Consecutive monocropping problem  Comparative proteomics  Pathogenesis-related protein  Stress response
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