[1]张宇航,李永光,王雪松,等.大豆GmGLP10 基因的克隆及生物信息学分析[J].大豆科学,2016,35(03):388-393.[doi:10.11861/j.issn.1000-9841.2016.03.0388]
 ZHANG Yu-hang,LI Yong-guang,WANG Xue-song,et al.Cloning and Bioinformatics Analysis of GmGLP10 in Soybean[J].Soybean Science,2016,35(03):388-393.[doi:10.11861/j.issn.1000-9841.2016.03.0388]
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大豆GmGLP10 基因的克隆及生物信息学分析

《大豆科学》[ISSN:1000-9841/CN:23-1227/S] 卷: 第35卷 期数: 2016年03期 页码: 388-393 栏目: 出版日期: 2016-05-20
Title:
Cloning and Bioinformatics Analysis of GmGLP10 in Soybean
作者:
张宇航李永光王雪松孙铭阳勾涵陈薇李悦李文滨
东北农业大学农学院大豆生物学教育部重点实验室/农业部东北大豆生物学与遗传育种重点实验室,黑龙江哈尔滨150030
Author(s):
ZHANG Yu-hangLI Yong-guangWANG Xue-songSUN Ming-yangGOU HanCHEN WeiLI YueLI Wen-bin
Agronomy College of Northeast Agricultural University /Key Laboratory of Soybean Biology in Chinese Ministry of Education /Key Laboratory of SoybeanBiology and Genetics Breeding,Chinese Agriculture Ministry,Harbin 150030,China)ion as an Auxin binding protein to regulate growth and development of soybeanand disease resistance defense responses.
关键词:
大豆 GmGLP10 基因 克隆 菌核病 生长素结合蛋白
Keywords:
Soybean GmGLP10 gene Cloning Sclerotinia Sclerotiorum Auxin binding protein
分类号:
S565. 1
DOI:
10.11861/j.issn.1000-9841.2016.03.0388
文献标志码:
A
摘要:
通过PCR 的方法从大豆抗菌核病品种Maple Arrow 中克隆得到GmGLP10 基因,生物信息学分析结果显示GmGLP10 蛋白由213 个氨基酸组成,具有一个糖基化位点和多个磷酸化位点,为胞外分泌蛋白。通过对GmGLP10 基因起始密码子上游1 500 bp 序列进行顺式作用元件分析,预测GmGLP10 启动子上具有多个与激素和防御胁迫应答相关的顺式作用元件。进化树分析结果表明,GmGLP10 与多个生长素结合蛋白进化距离较近,推断其可能具有相似的功能。GmGLP10 基因在菌核病菌胁迫下的转录本丰度的变化结果表明在菌核胁迫处理后GmGLP10 基因表达量上调明显。GmGLP10 可能作为生长素结合蛋白参与调控大豆的生长发育与抗病防御应答反应。
Abstract:
GmGLP10 gene was isolated from soybean Sclerotinia Sclerotiorum resistant cultivar Maple Arrow by PCR method.Bioinformaties analysis showed that GmGLP10 gene encoding a 213 amino acids protein,with a N-glycosylation site and severalphosphorylation sites and was putatively to be a extracellular protein. The Upstream 1 500 bp sequence of GmGLP10 genewere analyzed,multiple cis-elements related to hormone and defense stress responses existed in the GmGLP10 promoter region.Phylogenetic analysis results indicted that GmGLP10 and several Auxin binding proteins( ABPs) had closer genetic relationship,that may have similar functions. The GmGLP10 transcript abundance was significantly increased after Sclerotia infection.These results suggested GmGLP10 may funct

参考文献/References:

[1] Sakamoto A,Nishimura T,Miyaki Y,et al. In vitro and in vivoevidence for oxalate oxid-ase activity of a germin-like protein fromazalea[J]. Biochemical and Biophysical Research Communications,2015,458( 3) : 536-542.

[2] James B,Matthew B. Germin-like proteins( GLPs) in cereal genomes:Gene clustering and dynamic roles in plant defence[J].Functional & Integrative Genomics,2010,10( 4) : 463-476.
[3] Banerjee J,Maiti M K. Functional role of rice germin-like protein1in regulation of plant height and disease resistance[J]. Biochemicaland Biophysical Research Communications,2010,394( 1) : 178-183.
[4] Lane B G,Dunwell J M,Ray J A,et al. Germin,a protein markerof early plant development,is anoxalate oxidase[J]. The Journalof Biological Chemistry,1993,268( 17) : 12239-12242.
[5] Peng M,Kuc J. Peroxidase-generated hydrogen peroxide as asource of antifungal activity in vitro and on tobacco leaf disks[J].Phytopathology,1992,82( 6) : 696-699.
[6] 李莹,柳参奎. 植物类萌发素蛋白研究进展[J]. 中国农学通报,2014,30( 30) : 246-254. ( Li Y,Liu C K,Research progresson plant germin-like proteins [J]. Chinese Agricultural ScienceBulletin,2014,30( 30) : 246-254. )[7] Bolwell G P,Butt V S,Davies D R,et al. The origin of the oxidativeburst in plants[J]. Free Radical Research,1995,23( 6) :517-532.
[8] Greenberg J T,Guo A,Klessig D F,et al. Programmed cell deathin plants: A pathogen-triggered response activated coordinatelywith multiple defense functions [J]. Cell,1994,77 ( 4 ) :551-563.
[9] 吕春梅,赵月,赵雪,等. 大豆品种Maple Arrow 耐菌核病生化机制[J]. 中国油料作物学报,2014,36( 5) : 630-634. ( LyuC M,Zhao Y,Zhao X,et al. Biochemical resistance mechanismof soybean cultivar Maple Arrow to Sclerotinia sclerotiorum[J].Chinese Journal of Oil Crop Sciences,2014,36( 5) : 630-634. )
[10] 赵雪,韩英鹏,李海燕,等. 大豆主要品质性状资源评价及分3 期张宇航等: 大豆GmGLP10 基因的克隆及生物信息学分析393子标记分析[J]. 东北农业大学学报,2014,45 ( 5 ) : 1-7.( Zhao X,Han Y P,Li H Y,et al. Evaluation and molecularmarker analysis of soybean germplasm in main quality traits [J].Journal of Northeast Agricultural University,2014,45( 5) : 1-7. )
[11] 孙晶,盛碧涵,韩英鹏,等. 大豆基因组WRKY31 同源基因的生物信息学分析[J]. 大豆科学,2014,33 ( 5) : 642-647.( Sun J,Sheng B H,Han Y P,et al. Bioinformatics analysis ofWRKY31 homologs in soybean genome[J]. Soybean Science,2014,33( 5) : 642-647. )
[11] Orozcocrdenas M L,Narvezvsquez J,Ryan C A. Hydrogen peroxideacts as a second messenger forthe induction of defense genes intomato plants in response to wounding,systemin,and methyl jasmonate[J]. The Plant Cell Online,2001,13( 1) : 179-191.
[12] 李红丽,刘迪秋,何华,等. 类萌发素蛋白在植物防卫反应中的作用[J]. 植物生理学报,2013,49( 4) : 331-336. ( Li H L,Liu D Q,He H,et al. The role of germin-like protein in plant defenseresponses[J]. Plant Physiology Journal,2013,49 ( 4 ) :331-336. )
[13] 孟红岩,杜雄明,张春义,等. 棉花转录因子基因GhMS3 的克隆及其启动子功能的鉴定[J]. 中国农业科学,2010,43( 17) : 3489-3498. ( Meng H Y,Du X M,Zhang C Y,et al. Cloningand promoter function identification of cotton transcription factorGhMS3[J]. Scientia Agricultura Sinica,2010,43 ( 17 ) :3489-3498. )
[14] Li H Y,Jiang J,Wang S,et al. Expression analysis of ThGLP,anew germin-like protein gene,in Tamarix hispida[J]. Journal ofForestry Research,2010,21( 3) : 323-330.
[15] Zimmermann G,B Umlein H,Mock H P,et al. The multigenefamily encoding germin-like proteins of barley. Regulation andfunction in basal host resistance[J]. Plant Physiology,2006,142( 1) : 181-192.
[16] Lane B G,Cuming A C,Fregeau J,et al. Germin isoforms arediscrete temporal markers of wheat development[J]. FEBS Journal,1992,209( 3) : 961-969.
[17] Christensen A B,Thordal-christensen H,Zimmermann G,et al.The germinlike protein GLP4 exhibits superoxide dismutase activityand is an important component of quantitative resistance in wheatand barley[J]. Molecular Plant Microbe Interactions,2004,17( 1) : 109-117.
[18] Ohmiya A,Tanaka Y,Kadowaki K,et al. Cloning of genes encodingauxin-binding proteins( A-BP19 /20) from peach: Significantpeptide sequence similarity with germin-like proteins[J]. Plant &Cell Physiology,1998,39( 5) : 492-99.

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备注/Memo

基金项目: 抗逆转基因大豆新品种培育( 2015ZX08004002) ; 东北农业大学“青年才俊”项目( 14QC26) 。

第一作者简介: 张宇航( 1991-) ,男,博士,主要从事大豆遗传育种研究。E-mail: yuhangzhangneau@163. com。
通讯作者: 李文滨( 1958-) ,男,教授,博导,主要从事大豆遗传育种研究。E-mail: wenbinli@ neau. edu. cn。

更新日期/Last Update: 2016-06-28