期刊文献+

氮源受限条件下植物病原真菌氮调控基因表达特性 被引量:3

Progress on nitrogen regulation gene expression of plant pathogenic fungi under nitrogen starvation
下载PDF
导出
摘要 研究证实植物病害的发生往往是由于植物病原真菌分泌的效应子诱导引起的,在此过程中,调控效应基因表达能够了解病原菌的侵染过程。细胞的营养状况据推测对于效应基因的表达起着重要的作用。已有研究表明在氮胁迫条件下相同效应基因的诱导作用在植株体内和体外是一致的,表明氮源缺乏的环境在植物体进化的早期就已经存在了。文章阐述了在氮受限条件下真菌致病系统中效应基因调控机制及其已经发现的氮调节基因特异性表达研究结果,通过对比几个病原菌中氮调控基因的功能,比较寄主植物体内和体外在氮限制条件下基因的诱导效应,从而揭示出氮的有效性在寄主植物病害发展过程中起到重要作用。 It has been confirmed that the occurrence of plant disease is caused by the effector molecules secreted by plant pathogens. The regulation effector gene expression is an important aspect in understanding of the infection process. The nutritional status of cells has been postulated to be a vital role for effector gene expression. Studies have indicated that the induction of the same effecter genes during growth in vitro as those during growth in planta under nitrogen-starved conditions. This showed that the nitrogen poor environment existed in the early time of plant evolution. This paper describes the system in the pathogenesis of several fungal pathogens and nitrogen in the process of gene expression effects from the results of several species by comparing and contrasting the function of nitrogen regulatory genes, as well as by studying plants in vivo and in vitro gene under nitrogen limitation inductive effect in order to reveal the effectiveness of nitrogen in the development process of host plant disease is an important factor.
出处 《遗传》 CAS CSCD 北大核心 2012年第7期848-856,共9页 Hereditas(Beijing)
基金 国家自然科学基金项目(编号:31060021) 云南省自然科学基金项目(编号:2006C0062M 2008ZC100M)资助
关键词 病原真菌 氮代谢 氮调控基因 pathogenic fungi nitrogen metabolism nitrogen-regulated gene
  • 相关文献

参考文献66

  • 1van Baarlen P, van Belkum A, Thomma BPHJ. Disease induction by human microbial pathogens in plant-model systems: potential, problems and prospects. Drug Discov Today, 2007, 12(3-4): 167-173.
  • 2Chisholm ST, Coaker G, Day B, Staskawicz BJ. Host- microbe interactions: shaping the evolution of the plant immune response. Cell, 2006, 124(4): 803-814.
  • 3Dangl JL. Nibbling at the plant cell nucleus. Science, 2007, 315(5815): 1088-1089.
  • 4Kamoun S. Groovy times: filamentous pathogen effectors revealed. Curt Opin Plant Biol, 2007, 10(4): 358-365.
  • 5Baldwin TK, Winnenburg R, Urban M, Rawlings C, Koehler J, Hammond-Kosack KE. The pathogen-host in- teractions database (PHI-base) provides insights into ge- neric and novel themes of pathogenicity. Mol Plant Mi- crobe Interact, 2006, 19(12): 1451-1462.
  • 6van der Does HC, Rep M. Virulence genes and the evolu- tion of host specificity in plant-pathogenic fungi. Mol Plant Microbe Interact, 2007, 20(10): 1175-1182.
  • 7Bolton MD, van Esse HP, Vossen JH, de Jonge R, Stule- meijer IJE, Stergiopoulos I, Stulemeijer IJE, van Den Berg GCM, Borrris-Hidalgo O, Dekker HL, De Koster CG, De Wit PJGM, Joosten MHAJ, Thomma BPHJ. The novel Cladosporium fulvum lysin motif effector Ecp6 is a viru- lence factor with orthologues in other fungal species. Mol Microbiol, 2008, 69(1): 119-136.
  • 8BoRon MD, Thomma BPHJ, Nelson BD. Sclerotinia scle- rotiorum (Lib.) de Bary: biology and molecular traits of a cosmopolitan pathogen. Mol Plant Pathol, 2006, 7(1): 1-16.
  • 9van Esse HP, Bolton MD, Stergiopoulos I, de Wit PJGM, Thomma BPHJ. The chitin-binding Cladosporium fulvum effector protein Avr4 is a virulence factor. Mol Plant Mi- crobe Interact, 2007, 20(9): 1092-1101.
  • 10van Esse HP, van't Klooster JW, Bolton MD, Yadeta K, van Baarlen P, Boeren S, Vervoort J, de Wita PJGM, Thommaa BPHJ. The Cladosporiumfulvum virulence protein Avr2 inhibits host proteases required for basal defense. Plant Cell, 2008, 20(7): 1948-1963.

二级参考文献13

  • 1Baker B ,Zambryski P,Staskawicz B ,et al. Signaling in plant-microbe interaction [ J ]. Science, 1997, 276 ( 2 ) : 726 - 733.
  • 2Greenbaum D, Luscombe N M, Jansen R , et al. Interrelating different types of genomic data from proteome to secretome: Oming in on function [ J ]. Genome Research, 2001, 11 : 1463 - 1468.
  • 3Rep M. Small proteins of plant-pathogenic fungi secreted during host colonization[J]. FEMS Microbiology Letters, 2005, 253 : 19 -27.
  • 4Talbot N J , McCafferty H R K , Ma M, et al. Nitrogen starvation of the rice blast fungus Magnaporthe grisea may act as an environmental cue for disease symptom expression [ J ]. Physiological and Molecular Plant Pathology , 1997, 50: 179-195.
  • 5Walker J M . The protein protocols handbook (2^nd Ed. )[ M ]. New Jersey : Humana Press Incorpration, 2002.
  • 6Wang J Z,Fan M. Manual of protein research(in Chinese) [ M ]. Beijing : Science Press (北京:科学出版社),2000.
  • 7Sesma A, Osbourn A E. The rice leaf blast pathogen undergoes developmental processes typical of root-infecting fungi[J]. Nature, 2004, 431 (9): 582-586.
  • 8Snoeijers S S, P'erez-Garc'la A, Mattieu H, et al. The effect of nitrogen on disease development and gene expression in bacterial and fungal plant pathogens [ J ]. European Journal of Plant Pathology, 2000, 106:493 -506.
  • 9Talbot N J , Tongue N. High level expression of the mitochondrial small sub-unit ribosomal rRNA during infection by Magnaporthe grisea [ J ]. Physiol. Mol. Plant Pathol. , 1998, 52:335-352.
  • 10Zeigler R S, Leong S A, Teng P S. Rice blast disease [ M ]. Wilmington, United Kingdom : CABI , 1994.

共引文献5

同被引文献5

引证文献3

二级引证文献11

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部