全部 标题 作者
关键词 摘要

OALib Journal期刊
ISSN: 2333-9721
费用:99美元
投递稿件

查看量下载量

相关文章

更多...

拟南芥xerico基因诱导表达提高转基因植物的耐旱性

DOI: 10.3724/SP.J.1145.2013.00969, PP. 969-973

Keywords: 拟南芥,sark启动子,xerico基因,脱落酸,耐旱性

Full-Text   Cite this paper   Add to My Lib

Abstract:

构建了psark::xerico植物表达载体,并将其转化到模式植物拟南芥中进行生理表型分析,以期为植/作物抗旱研究提供参考.利用rt-pcr技术从拟南芥幼苗cdna中扩增出xerico基因全长,并从psark-ipt质粒中分离出sark启动子,构建植物表达载体pbi121-psark-xerico,然后将构建的表达载体通过浸花法转入野生型拟南芥中,通过抗性筛选和遗传分离分析后获得纯系,对获得的纯合植株进行pcr鉴定,并对其进行种子萌发期间的aba敏感性分析,以及对它们早期幼苗生长期间经盐分和甘露醇胁迫处理后的表型观察结果进行分析.此外,还对转psark::xerico和野生型拟南芥进行了耐旱性分析.与野生型和xerico突变体相比,转psark::xerico拟南芥对1.0mmol/laba、100mmol/lnacl和200mmol/l甘露醇均较敏感;与野生型相比,水分亏缺诱导的xerico基因在拟南芥中的表达增强了植物对干旱胁迫的耐受性.因此,本研究表明psark::xerico可用于培育耐旱的植物或作物.

 References

[1]  1mittlerr,blumwalde.geneticengineeringformodernagriculture:challengesandperspectives[j].annurevplantbiol,2010,61:443-4622pasapulav,shengx,kuppus,paez-valenciaj,mendozam,houp,chenj,qiuxy,zhulf,zhangxl,auldd,blumwalde,zhangh,gaxiolar,paytonp.expressionofanarabidopsisvacuolarh+-pyrophosphatasegene(avp1)incottonimprovesdrought-andsalttoleranceandincreasesfibreyieldinthefieldconditions[j].plantbiotechj,2011,9:88-993杨帆,苗灵凤,胥晓,李春阳.植物对干旱胁迫的响应研究进展[j].应用与环境生物学报,2007,13(4):586-591[yangf,miaolf,xux,licy.progressinresearchofplantresponsestodroughtstress[j].chinjapplenvironbiol,2007,13(4):586-4宁约瑟,王国梁,谢旗.泛素连接酶e3介导的植物干旱胁迫反应[j].植物学报,2011,46(6):606-616[ningys,wanggl,xieq.e3ubiquitinligase-mediateddroughtresponsesinplants[j].chinbullbot,2011,46(6):606-616]5pelegz,blumwalde.hormonebalanceandabioticstresstoleranceincropplants[j].curropinplantbiol,2011,14(3):290-2956boyerjs.plantproductivityandenvironment[j].science,1982,218(4571):443-4487pelegz,apsemp,blumwalde.engineeringsalinityandwater-stresstoleranceincropplants:gettingclosertothefield[j].advbotres,2011,57:405-4438riverorm,kojimam,gepsteina,sakakibarah,mittlerr,gepsteins,blumwalde.delayedleafsenescenceinducesextremedroughttoleranceinafloweringplant[j].procnatlacadsciusa,2007,104(49):19631-196369riverorm,shulaevv,blumwalde.cytokinin-dependentphotorespirationandtheprotectionofphotosynthesisduringwaterdeficit[j].plantphysiol,2009,150(3):1530-154010riverorm,gimenoj,vandeynzea,waliah,blumwalde.enhancedcytokininsynthesisintobaccoplantsexpressingpsark::iptpreventsthedegradationofphotosyntheticproteincomplexesduringdrought[j].plantcellphysiol,2010,51(11):1929-194111pelegz,regueram,tumimbange,waliah,blumwalde.cytokininmediatedsource/sinkmodificationsimprovedroughttoleranceandincreasesgrainyieldinriceunderwaterstress[j].plantbiotechj,2011,9(7):747-75812qinh,guq,zhangj,sunl,kuppus,zhangy,burowm,paytonp,blumwalde,zhangh.regulatedexpressionofanisopentenyltransferasegene(ipt)inpeanutsignificantlyimprovesdroughttoleranceandincreasesyieldunderfieldconditions[j].plantcellphysiol,2011,52(11):1904-191413kuppus,mishran,hur,sunl,zhux,sheng,blumwalde,paytonp,zhangh.water-deficitinducibleexpressionofacytokininbiosyntheticgeneiptimprovesdroughttoleranceincotton[j].plosone,2013,8(5):e6419014koj,yangsh,hank.upregulationofanarabidopsisring-h2gene,xerico,confersdroughttolerancethroughincreasedabscisicacidbiosynthesis[j].plantj,2006,47(3):343-35515zentellar,zhangz,parkm,thomassg,endoa,murasek,fleetcm,jikumaruy,nambarae,kamiyay,sunt.globalanalysisofdelladirecttargetsinearlygibberellinsignalinginarabidopsis[j].plantcell,2007,19(10):3037-305716murashiget,skoogf.arevisedmediumforrapidgrowthandbioassayswithtobaccotissuecultures[j].physiolplant,1962,15(3):473-49717cloughsj,bentaf.floraldip:asimplifiedmethodforagrobacterium-mediatedtransformationofarabidopsisthaliana[j].plantj,1998,16(6):735-74318delatorreaca,cohenay,liul,pelegaz,blumwalde.theregulationofthesarkpromoteractivitybyhormonesandenvironmentalsignals[j].plantsci,2012,193-194:39-4719eckardtna.gasignaling:directtargetsofdellaproteins[j].plantcell,2007,19(10):2970

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133