[1]冯宝珍,李培谦,成娟丽,等.辣椒疫霉NPP效应子基因家族生物信息学分析[J].江苏农业科学,2014,42(07):28-32.
Feng Baozhen,et al.Bioinformatics analysis of gene family of Phytophthora capsici necrosis-inducing protein[J].Jiangsu Agricultural Sciences,2014,42(07):28-32.
点击复制
辣椒疫霉NPP效应子基因家族生物信息学分析(PDF)
Feng Baozhen,et al.Bioinformatics analysis of gene family of Phytophthora capsici necrosis-inducing protein[J].Jiangsu Agricultural Sciences,2014,42(07):28-32.
《江苏农业科学》[ISSN:1002-1302/CN:32-1214/S]
- 卷:
- 第42卷
- 期数:
- 2014年07期
- 页码:
- 28-32
- 栏目:
- 生物技术
- 出版日期:
- 2014-07-25
文章信息/Info
- Title:
- Bioinformatics analysis of gene family of Phytophthora capsici necrosis-inducing protein
- Author(s):
- Feng Baozhen; et al
- Keywords:
- -
- 分类号:
- S436.418.1+9
- DOI:
- -
- 文献标志码:
- A
- 摘要:
- NPP(necrosis-inducing Phytophthora protein)是一类效应子,在卵菌疫霉属病原菌中普遍存在,该类蛋白能够激发植物的防御反应,如引起植物细胞死亡、促使寄主防御基因表达及产生乙烯。利用生物信息学方法对辣椒疫霉(Phytophthora capsici)基因组内的NPP基因家族存在状况进行分析,并对其氨基酸序列组成、基本理化性质、蛋白质三级结构等进行预测分析,旨在了解其结构特征,进而发掘辣椒疫霉的致病相关基因。结果表明:NPP基因家族有25个成员,其中大部分成员存在多个拷贝。对25个NPP氨基酸序列进行分析发现,其分子量在12.45~88.9 ku之间;对其中15个NPP蛋白进行三级结构预测发现,它们的三维结构类似,其主要的结构元件为α-螺旋和β-片层;构建了25个NPP蛋白的进化树,进行了分子进化分析。
- Abstract:
- -
参考文献/References:
[1]Chisholm S T,Coaker G,Day B,et al. Host-microbe interactions:shaping the evolution of the plant immune response[J]. Cell,2006,124(4):803-814.
[2]Hogenhout S A,Van der Hoorn R A,Terauchi R,et al. Emerging concepts in effector biology of plant-associated organisms[J]. Molecular Plant-Microbe Interactions,2009,22(2):115-122.
[3]Kamoun S. Groovy times:filamentous pathogen effectors revealed[J]. Current Opinion in Plant Biology,2007,10(4):358-365.
[4]Pemberton C L,Salmond G P. The Nep1-like proteins-a growing family of microbial elicitors of plant necrosis[J]. Molecular Plant Pathology,2004,5(4):353-359.
[5]Whisson S C,Boevink P C,Moleleki L,et al. A translocation signal for delivery of oomycete effector proteins into host plant cells[J]. Nature,2007,450(7166):115-118.
[6]Stam R,Jupe J,Howden A J,et al. Identification and characterisation CRN effectors in Phytophthora capsici shows modularity and functional diversity[J]. PLoS One,2013,8(3):e59517.
[7]Orsomando G,Lorenzi M,Raffaelli N,et al. Phytotoxic protein PcF,purification,characterization,and cDNA sequencing of a novel hydroxyproline-containing factor secreted by the strawberry pathogen Phytophthora cactorum[J]. Journal of Biological Chemistry,2001,276(24):21578-21584.
[8]Bos J I B,Armstrong M,Whisson S C,et al. Intraspecific comparative genomics to identify avirulence genes from Phytophthora[J]. New Phytologist,2003,159(1):63-72.
[9]Tyler B M,Tripathy S,Zhang Xuemin,et al. Phytophthora genome sequences uncover evolutionary origins and mechanisms of pathogenesis[J]. Science,2006,313(5791):1261-1266.
[10]Jennings J C,Apel-Birkhold P C,Mock N M,et al. Induction of defense responses in tobacco by the protein Nep1 from Fusarium oxysporum[J]. Plant Science,2001,161(5):891-899.
[11]Veit S,Wrle J M,Nürnberger T,et al. A novel protein elicitor(PaNie)from Pythium aphanidermatum induces multiple defense responses in carrot,Arabidopsis,and tobacco[J]. Plant Physiology,2001,127(3):832-841.
[12]Fellbrich G,Romanski A,Varet A,et al. NPP1,a Phytophthora-associated trigger of plant defense in parsley and Arabidopsis[J]. Plant Journal,2002,32(3):375-390.
[13]Keates S E,Kostman T A,Anderson J D,et al. Altered gene expression in three plant species in response to treatment with Nep1,a fungal protein that causes necrosis[J]. Plant Physiology,2003,132(3):1610-1622.
[14]Bailey B A,Bae H,Strem M D,et al. Developmental expression of stress response genes in Theobroma cacao leaves and their response to Nep1 treatment and a compatible infection by Phytophthora megakarya[J]. Plant Physiology and Biochemistry,2005,43(6):611-622.
[15]Wang J Y,Cai Y,Gou J Y,et al. VdNEP,an elicitor from Verticillium dahliae,induces cotton plant wilting[J]. Applied and Environmental Microbiology,2004,70(8):4989-4995.
[16]Mattinen L,Tshuikina M,Me A,et al. Identification and characterization of Nip,necrosis-inducing virulence protein of Erwinia carotovora subsp. carotovora[J]. Molecular Plant-Microbe Interactions,2004,17(12):1366-1375.
[17]Qutob D,Kamoun S,Gijzen M. Expression of a Phytophthora sojae necrosis-inducing protein occurs during transition from biotrophy to necrotrophy[J]. Plant Journal,2002,32(3):361-373.
[18]Bendtsen J D,Nielsen H,von Heijne G,et al. Improved prediction of signal peptides:SignalP 3.0[J]. Journal of Molecular Biology,2004,340(4):783-795.
[19]Marchler-Bauer A,Anderson J B,Chitsaz F,et al. CDD:specific functional annotation with the Conserved Domain Database[J]. Nucleic Acids Research,2009,37:D205-D210.
[20]Letunic I,Doerks T,Bork P. SMART 7:recent updates to the protein domain annotation resource[J]. Nucleic Acids Research,2012,40:D302-D305.
[21]Galagan J E,Calvo S E,Borkovich K A,et al. The genome sequence of the filamentous Neurospora crassa[J]. Nature,2003,422(6934):859-868.
[22]Jores J L A,Appel B,Lewin A.Cloning and molecular Characterization of a Unique Hemolysin Gene of Vibrio pommerensis sp. nov. development of a DNA probe for the detection of the hemolysin gene and its use in identification of related Vibrio spp. from the Baltic Sea[J]. FEMS Micro Lett,2003,229(2):223-229.
相似文献/References:
[1]侯宗海,王光飞,马艳,等.不同温度下淹水对辣椒疫病的防效研究[J].江苏农业科学,2020,48(22):111.
Hou Zonghai,et al.Study on control effect of flooding at different temperatures on pepper phytophthora blight[J].Jiangsu Agricultural Sciences,2020,48(07):111.
[2]翟新羽,黄太萍,冯国荣,等.壳寡糖抑制辣椒疫霉的生长发育和侵染[J].江苏农业科学,2023,51(15):106.
Zhai Xinyu,et al.Inhibition of growth,development and host infection of Phytophthora capsici by chito-oligosaccharides[J].Jiangsu Agricultural Sciences,2023,51(07):106.
备注/Memo
- 备注/Memo:
-
收稿日期:2013-10-02
基金项目:山西省高校科技项目(编号:20121025);山西省青年科技研究基金(编号:2013021024-6)
作者简介:冯宝珍(1981—),女,山东临沂人,博士,讲师,主要从事分子植物病理学研究。E-mail:fengbaozhen@126.com。
常用功能
统计/Statistics
- 摘要浏览/Viewed1641
- 全文下载/Downloads641
- 评论/Comments
