生物逆境和共生状态下植物的蛋白质组学研究

The Study of Vegetable Proteome Under Biotic Stress and Symbionic State

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摘要蛋白质组技术已广泛应用于植物遗传、发育和生理生态等诸多生物学领域,主要研究植物的遗传多样性、植物发育、组织分化、植物对非生物逆境(包括高温、低温、高盐和干旱等)和生物逆境(病虫害)的适应机制和植物与微生物(根瘤共生体)相互作用机制。本文综述了微生物与植物互作的蛋白质组研究进展,包括有害和有益的相互作用,同时对植物蛋白质组学的发展前景进行了讨论。 Proteome techniques have been widely applied to the fields of plant genetics, plant development, plant physiology and ecology to investigate plant genetic diversity, plant development, differentiation of plant tissue, mechanisms of plant adapted to abiotic or biotic stresses including high temperature, low temperature, high salt, drought, and plant pathogens and pests, and interaction of plant with microbe. In the paper, proteome progression on the interaction of plant with microbe are summarized and the prospects of plant proteomics are discussed.

作者李雅潇高川韩维涛

机构地区武警后勤学院药物化学教研室天津市职业与环境危害防制重点实验室北京药物化学研究所

出处《现代生物医学进展》 CAS 2014年第30期5995-6000,共6页 Progress in Modern Biomedicine

基金武警后勤学院青年基金项目(WYQ201106)

关键词蛋白质组植物蛋白发育相关蛋白组生物逆境共生体 Proteome Vegetable proteome Development proteome Biotic stress Symbiont

分类号 Q943.2 [生物学—植物学] Q946 [生物学—植物学]

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1Rep M,Dekker H L, Vossen J H, et al. Mass spectrometric identificati-on of isoforms of PR proteins in xylem sap of fungus-infected tomato[J]. Plant Physiol, 2002,130(10): 904-917.
2Colditz F, Nyamsuren O, Niehaus K, et al. Proteomic approach:identification of Medicago truncatula proteins induced in roots afterinfection with the pathogenic oomycete Aphanomyces euteiches [J].Plant Mol Biol, 2004,55: 109-120.
3Colditz F,Braun H P, Jacquet C, et al. Proteomic profiling unravelsinsights into the molecular background underlying increased Aphano-myces euteiches tolerance of Medicago truncatula [J]. Plant Mol Biol,2005,59: 387-406.
4Colditz F, Niehaus K, Krajinski F. Silencing of PR-10-like proteins inMedicago truncatula results in an antagonistic induction of other PRproteins and in an increased tolerance upon infection with theoomycete Aphanomyces euteiches[J]. Planta, 2007, 226: 57-71.
5Wen F S, VanEtten H D,Tsaprailis G, et al. Extracellular proteins inpea root tip and border cell exudates[J]. Plant Physiol, 2007,143: 773-783.
6Bouws H, Wattenberg A, Zom H. Fungal secretomes-nature's toolboxfor white biotechnology[J]. Appl Microbiol Biotechnol, 2008, 80: 381-388.
7Guerreiro N, Redmond JW, Rolfe BG, et al. New Rhizobiumleguminosarum flavonoid-induced proteins revealed by proteomeanalysis of differentially displayed proteins [J]. Mol Plant-MicrobInteract, 1997, 10: 506-516.
8Bestel-Corre G, Dumas-Gaudot E, Poinsot V,et al. Proteome analysisand identification of symbiosis-related proteins from Medicagotruncatula Gaertn. by two-dimensional electrophoresis and massspectrometry[J]. Electrophoresis, 2002, 23: 122-137.
9Wan J R, Torres M, Ganapathy A, et aL Proteomic analysis of soybeanroot hairs after infection by Bradyrhizobium japonicum [J]. MolPlant-Microb Interact, 2005,18: 458-467.
10Van-Noorden G E, Kerim T, Goffard N, et al. Overlap of proteomechanges in Medicago truncatula in response to auxin and Sinorhiz-obium meliloti [J]. Plant Physiol, 2007,144: 1115-1131.

1李娜.WRKY耐逆研究进展[J].安徽农业科学,2010,38(13):6651-6652. 被引量：1
2夏薇,李静,周丽霞,杨耀东,肖勇,马子龙.转录本选择性剪切研究进展[J].江西农业学报,2014,26(10):12-15. 被引量：1
3姚丙晨,孙玥,孙林静,马忠友,苏京平,刘学军.病毒诱导的基因沉默的发展及在植物生物逆境上的应用[J].中国农学通报,2016,32(9):131-136. 被引量：8
4阮松林,马华升,王世恒,忻雅,钱丽华,童建新,赵杭苹,王杰.植物蛋白质组学研究进展 Ⅱ.蛋白质组技术在植物生物学研究中的应用[J].遗传,2006,28(12):1633-1648. 被引量：19
5朱峰,陈孝仁,钱坤,纪兆林,孔维文,杨益众.生物胁迫相关NAC1转录因子的生物信息学分析[J].江苏农业科学,2016,44(10):43-49. 被引量：3
6宋凤鸣,毛克克,吴铖铖,李大勇.印度梨形孢的生物学效应及其作用机制[J].浙江大学学报（农业与生命科学版）,2011,37(1):1-6. 被引量：12
7王学兰,林良斌,余迪求.拟南芥WRKY68转录调控因子的表达谱分析[J].植物分类与资源学报,2013,35(1):41-47. 被引量：5
8许玉凤,安艳秋,范海延.蛋白质组学在种子研究中的应用[J].种子,2009,28(6):64-67. 被引量：1
9李晓玲,赵欣欣.植物基因组中的反转录转座子[J].长春工业大学学报,2004,25(4):21-24. 被引量：4
10朱丽萍,于壮,邹翠霞,李秋莉.植物逆境相关启动子及功能[J].遗传,2010,32(3):229-234. 被引量：30

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生物逆境和共生状态下植物的蛋白质组学研究

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