个人简介

王玮，女，山东昌邑人。博士，博士后，硕士、博士研究生导师。山东省植物生理学会理事。1986年本科毕业于山东农业大学农学专业获农学学士学位，同年留校任教；1993年硕士研究生毕业于山东农业大学植物生理专业获生物学硕士学位；1999年博士研究生毕业于山东农业大学作物栽培与耕作专业获农学博士学位；1999年～2001年期间于中国农业大学生物学博士后流动站工作2年。主要研究植物逆境生理及其分子基础（plantstressphysiologyandmolecularbiology）和小麦抗逆新品种的培育（plantbreedingforstressresistance）。近年来主持承担国家自然科学基金、山东省自然科学基金以及山东省科技厅研究项目多项。培育抗旱小麦新品种1个。在《JournalofExperimentalBotany》《JournalofBiotechnology》《PlantPhysiologyandBiochemistry》《JournalofPlantPhysiology》《plantbiology》等国内外重要学术刊物上发表论文60余篇。 教学工作 承担本科生《植物生理学》、《植物生理学实验》、《细胞信号转导》的教学工作；研究生《植物抗性生理》、《细胞信号转导》、《高级植物生理实验技术》等课程的教学工作。

研究领域

研究方向 1.植物逆境生理及其分子基础（plantstressphysiologyandmolecularbiology）：研究植物对逆境的分子生理反应及其分子机制，克隆逆境相关基因，研究基因的表达调控及生物学功能，通过基因工程获得抗逆性强的作物新品种。 2.小麦抗逆新品种的培育（wheatbreedingforstressresistance）：将植物逆境生理及逆境分子生物学的研究成果用于小麦的抗逆育种过程，培育抗逆性强、农艺性状好、产量稳定性好的小麦新品种

科研项目 1.国家自然科学基金《小麦泛素连接酶F-box蛋白基因在调节植物耐旱性中的功能》（No.31370304） 2．国家自然科学基金《小麦扩展蛋白调节的生长反应与抗旱性关系》(No.30671259) 3.山东省农业良种产业化开发项目《小麦及其近缘植物基因资源发掘和抗病、耐逆、多花多粒种质创新研究》子课题 4.山东省科技成果转化项目《抗旱小麦新品种山农16号及配套栽培技术推广示范》 5.山东省资源节约型社会科技支撑体系建设专项计划《现代农业节水关键技术体系集成与示范》子课题（No.2006JY06）。 6.山东省科技攻关项目《抗旱耐盐优质小麦新品种选育、配套栽培技术及抗性机理研究》（No.2005GG3209122) 7.山东省农业良种工程重大课题《高产优质抗逆超级小麦新品种培育》子课题 8.山东省烟草专卖局《烤烟抗旱生理及抗旱性栽培研究》(No.KN77) 9山东省教育厅《抗旱节水小麦的生理育种》（No.J02I05） 10.山东省自然科学基金《冬小麦抗旱主效基因的克隆、表达特性及其生理功能研究》(No.Y2003D03)

近期论文

查看导师最新文章 （温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

1.WenqiangWang,QunqunHao,QinxueLi,FengxiaTian,WeiWang*.Thecytokinin-regulatedsucrosemetabolisminvolvedinthestay-greenphenotypeofwheatmutanttasg1,PLoSONE，2016,11(8):e0161351. 2.XiangzhuKong,ShumeiZhou,SuhongYin,ZhongxianZhao,YangyangHan,WeiWang*.Stress-inducibleexpressionofanF-boxgeneTaFBA1fromwheatenhancedthedroughttoleranceintransgenictobaccoplantswithoutimpactinggrowthanddevelopment,FrontiersinPlantScience,sectionPlantPhysiology,2016,7:1295. 3.YanhuiChen,yangyangHan,XiangzhuKong,YuanqingRen,weiWang*.EctopicexpressionofthewheatexpansingeneTaEXPA2improvedthesalttoleranceoftransgenictobaccobyregulatingNa+/K+andantioxidantcompetence,PhysiologiaPlantarum,2016doi:10.1111/ppl.12492 4.HanhanKang,MengZhang,ShumeiZhou,QifangGuo,FengjuanChen,JiajieWu,WeiWang*.Overexpressionofwheatubiquitingene,Ta-Ub2,improvesabioticstresstoleranceofBrachypodiumdistachyon,PlantScience,2016,248:102–115 5.YanhuiChen,YangyangHan,MengZhang,ShanZhou,XiangzhuKong,WeiWang*.OverexpressionoftheWheatExpansinGeneTaEXPA2ImprovedSeedProductionandDroughtToleranceinTransgenicTobaccoPlants,PLoSONE,2016,11(4):e0153494. 6.WenqiangWang,QunqunHao,FengxiaTian,QinxueLi,WeiWang*.Thestay-greenphenotypeofwheatmutanttasg1isassociatedwithalteredcytokininmetabolism,PlantCellRep.,2016,35:585–599 7.ShanZhou,Yang-yangHan,Yan-huiChen,XiangzhuKong,WeiWang*.TheInvolvementofExpansinsinResponsetoWaterStressduringLeafDevelopmentinWheat,JournalofPlantPhysiology,2015,183:64–74 8.MengZhang,HanhanKang,GuangqiangZhang,YanhuiChen,XiangzhuKong,QifangGuo,WeiWang*.OverexpressionofTaUb2enhancesdiseaseresistancetoPseudomonassyringaepv.tomatoDC3000intobacco.PhysiologicalandMolecularPlantPathology,2015,90:98-104 9.ShumeiZhou,XiangzhuKong,HanhanKang,XiudongSun,WeiWang*,TheinvolvementofwheatF-boxproteingeneTaFBA1intheoxidativestresstoleranceofplants.PLoSOne,2015,10(4).DOI:3.53410.1371/journal.pone.0122117 10.YangyangHan,YanhuiChen,SuhnogYin,MengZhang,WeiWang*.OverexpressionofTaEXPB23,awheatexpansingene,improvesoxidativestresstoleranceintransgenictobaccoplants.JournalofPlantPhysiology,2015,173:62–71 11.AiXiuLi,YangYangHan,XinWang,YanHuiChen,MeiRongZhao,ShuMeiZhou,WeiWang*.Root-specificexpressionofwheatexpansingeneTaEXPB23enhancesrootgrowthandwaterstresstoleranceintobacco,EnvironmentalandExperimentalBotany,2014,110:73–8410.1016/j.envexpbot.2014.10.002 12.Gui-PingWang,Feng-XiaTian,MengZhang,WeiWang*.TheoveraccumulationofglycinebetainealleviateddamagestoPSIIofwheatflagleavesunderdroughtandheatstresscombination.ActaPhysiolPlant,2014,36:2743–2753 13.ShumeiZhou,XiudongSun,SuhongYin,XiangzhuKong,ShanZhou,YingXu,YinLuo,WeiWang*.TheroleoftheF-boxgeneTaFBA1fromwheat(TriticumaestivumL.)indroughttolerance,PlantPhysiologyandBiochemistry,2014,84:213-223 14.FengxiaTian,JiangfengGong,JinZhang,YananFeng,GuokunWang,QifangGuo,WeiWang*.Overexpressionofmonoubiquitinimprovesphotosynthesisintransgenictobaccoplantsfollowinghightemperaturestress.PlantScience,2014,226:92–100 15.Yang-yangHan,ShanZhou,Yan-huiChen,XiangzhuKong,YingXu,WeiWang*.Theinvolvementofexpansinsinresponsestophosphorusavailabilityinwheat,anditspotentialsinimprovingphosphorusefficiencyofplants.PlantPhysiologyandBiochemistry,2014,78:53-62 16.Y.L.Wu,Q.F.Guo,Y.Luo,F.X.Tian,W.Wang*.DifferencesinPhysiologicalCharacteristicsbetweenTwoWheatCultivarsExposedtoFieldWaterDeficitConditions.RussianJournalofPlantPhysiology,2014,61(4):451–459. 17.YananFeng,MengZhang,QifangGuo,GuokunWang,JiangfengGong,YinXu,WeiWang*.ManipulationofMonoubiquitinImprovesChillingToleranceinTransgenicTobacco(Nicotianatabacum).PlantPhysiologyandBiochemistry,2014,75:138-144 18..FengxiaTian,JiangfengGong,JinZhang,MengZhang,GuokunWang,AixiuLiandWeiWang*Enhancedstabilityofthylakoidmembraneproteinsandantioxidantcompetencecontributetodroughtstressresistanceinthetasg1wheatstay-greenmutant.JournalofExperimentalBotany,2013,64(6):1509–1520doi:10.1093/jxb/ert004 19.FengLi,YangyangHan,YananFeng,ShichaoXing,MeirongZhao,YanhuiChen,WeiWang*().TheectopicexpressionofwheatexpansinsintobaccodrivenbytheRD29promoterconferswaterstresstoleranceandimprovedphenotype.JournalofBiotechnology,2013,163:281–291doi:10.1016/j.jbiotec.2012.11.008 20.Guo-KunWang,MengZhang,Jiang-FengGong,Qi-FangGuo,Ya-NanFeng,WeiWang*.Increasedgibberellincontentscontributetoacceleratedgrowthanddevelopmentoftransgenictobaccooverexpressingawheatubiquitingene.PlantCellRep,2012,31:2215-2227DOI10.1007/s00299-012-1331-z 21.YangyangHan,AixiuLi,FengLi,MeirongZhao,WeiWang*.Characterizationofawheat(TriticumaestivumL.)expansingene,TaEXPB23,involvedintheabioticstressresponseandphytohormoneregulation.PlantPhysiologyandBiochemistry,2012,54:49-58doi:10.1016/j.plaphy.2012.02.007 22.ZhenHui,Feng-XiaTian,Guo-kunWang,Gui-PingWang,WeiWang*.Theantioxidativedefensesystemisinvolvedinthedelayedsenescenceinawheatmutanttasg1.PlantCellRep,2012,31:1073–1084DOI10.1007/s00299-012-1226-z 23.JinZhang,QifangGuo,FengLi,YananFeng,ZhenyuFan,WeiWang*.Manipulationofmonoubiquitinimprovessalttoleranceintransgenictobacco,plantbiology,2012,14:315–324doi:10.1111/j.1438-8677.2011.00512.x 24.Mei-rongZhao,Yang-yangHan,Ya-nanFeng,FengLi,WeiWang*.Expansinsareinvolvedincellgrowthmediatedbyabscisicacidandindole-3-aceticacidunderdroughtstressinwheat.PlantCellRep,2012,31:671–685DOI10.1007/s00299-011-1185-9 25.F.X.TIAN,J.F.GONG,G.P.WANG,G.K.WANG,Z.Y.FANandW.WANG*.Improveddroughtresistanceinawheatstay-greenmutant,tasg1,underfieldconditions.BiologiaPlantarum,2012,56(3):509-515doi:10.1007/s10535-012-0049-7 26.FengLi,ShichaoXing,QifangGuo,MeirongZhao,JinZhang,QiangGao,GuipingWang,WeiWang*.Droughttolerancethroughover-expressionoftheexpansingeneTaEXPB23intransgenictobacco,JournalofPlantPhysiology,2011,168:960–966doi:10.1016/j.jplph.2010.11.023 27.Mei-rongZhao,FengLi,YingFang,QiangGao,WeiWang*.Expansin-regulatedCellElongationisInvolvedintheDroughtToleranceinWheat.Protoplasma,2011,248:313–323(DOI10.1007/s00709-010-0172-2) 28.X.-Y.ZHANG,C.LIANG,G.-P.WANG,Y.LUOandW.WANG*.Theprotectionofwheatplasmamembraneundercoldstressbyglycinebetaineoverproduction.BiologiaPlantarum,2010,54(1):83-88,2010.DOI10.1007/s10535-010-0012-4 29.Y.LUO,F.LI,G.P.WANG,X.H.YANGandW.WANG*.Exogenously-suppliedtrehaloseprotectsthylakoidmembranesofwinterwheatfromheat-induceddamage.BiologiaPlantarum,2010,54(3):495-501DOI:10.1007/s10535-010-0087-y 30.WangGP,LiF,ZhangJ,ZhaoMR,HuiZ,WangW*.Overaccumulationofglycinebetaineenhancestoleranceofthephotosyntheticapparatustodroughtandheatstressinwheat.Photosynthetica,2010,48(1):30–41DOI:10.1007/s11099-010-0006-7 31.WangGP,ZhangXY,LiF,LuoY,WangW*.Overaccumulationofglycinebetaineenhancestolerancetodroughtandheatstressinwheatleavesintheprotectionofphotosynthesis.Photosynthetica,2010,48(1):117-126DOI:10.1007/s11099-010-0016-5 32.Gui-PingWang,ZhenHui,FengLi,Mei-RongZhao,JinZhang,WeiWang*.Improvementofheatanddroughtphotosynthetictoleranceinwheatbyoveraccumulationofglycinebetaine.PlantBiotechnolRep.2010,4:213–222,DOI10.1007/s11816-010-0139-y 33.S.-C.XING,F.LI,Q.-F.GUO,D.-R.LIU,X.-X.ZHAOandW.WANG*.TheinvolvementofanexpansingeneTaEXPB23fromwheatinregulatingplantcellgrowth.BiologiaPlantarum,2009,53(3):429-434 34.C.Liang,X.Y.Zhang,Y.Luo,G.P.Wang,Q.Zou,andW.Wang*.OveraccumulationofGlycineBetaineAlleviatestheNegativeEffectsofSaltStressinWheat.RussianJournalofPlantPhysiology,2009,56:370–376. 35.YinLuo,Wei-MinLi,WeiWang*.Trehalose:Protectorofantioxidantenzymesorreactiveoxygenspeciesscavengerunderheatstress?EnvironmentalandExperimentalBotany,2008,63:78–384doi:10.1016/j.envexpbot.2007.11.016 36.C.WANG,X.L.MA,Z.HUI,andW.WANG*.Glycinebetaineimprovesthylakoidmembranefunctionoftobaccoleavesunderlow-temperaturestress.Photosynthetica,2008,46(3):400-409 37.GifangGuo,JinZhang,QiangGao,ShichaoXing,FengLi,WeiWang*.Droughttolerancethroughoverexpressionofmonoubiquitinintransgenictobacco.JPlantPhysiol,2008,165:1745-1755.doi:10.1016/j.jplph.2007.10.002 38.QiangGao,MeirongZhao,FengLi,QifangGuo,ShichaoXing,WeiWang*.ExpansinsandColeoptileElongationinwheat.Protoplasma,2008,233:73-81DOI10.1007/s00709-008-0303-1 39.X.L.Ma,Y.J.Wang,S.L.Xie,C.Wang,andW.Wang*.GlycinebetaineApplicationAmelioratesNegativeEffectsofDroughtStressinTobacco,RussianJournalofPlantPhysiology,2007.54:472–479 40.X.-X.ZHAO,Q.-Q.MA,C.LIANG,Y.FANG,Y.-Q.WANGandW.WANG*.Applicationofglycinebetaineimprovedfunctionofthylakoidmembranesinwheatflagleavesunderdroughtstress,BiologiaPlantarum,2007,51(3):584-588 41.高强，郭启芳，邢士超，赵美荣，李峰，王玮*.TheCharacteristicsofExpansinsINwheatColeoptilesandTheirResponsestoWaterStress,JournalofPlantPhysiologyandMolecularBiology,2007,33(5):402-410 42.Qian-QuanMa,WeiWang*,Yong-HuaLi,De-QuanLi,QiZou(2006)Alleviationofphotoinhibitionindrought-stressedwheat(Triticumaestivum)byfoliar-appliedglycinebetaine,Journalofplantphysiology,163(2):165-175