个人简历
教育与研究/工作经历1991–1994河南科技大学农学院学习1997–2000河南农业大学攻读硕士学位2000–2003中国科学院华南植物研究所攻读博士学位2003–至今河南农业大学国家小麦工程技术研究中心/农学院工作2003–2006河南农业大学,助理研究员2004–2007河南农业大学,博士后2007–2014河南农业大学,副研究员2010–2011中国科学院遗传与发育生物学研究所,合作研究2014–至今河南农业大学,研究员2016–至今河南省特聘教授项目与课题国家自然科学基金面上项目:小麦淀粉合成关键酶TaSSUII基因上游转录因子的辨析,起止日期:2019.01–2022.12(主持)国家自然科学基金-河南联合基金:TaBTF3转录因子在水杨酸提高小麦非生物胁迫抗性中的作用机制,起止日期:2018.01–2020.12(主持)国家自然科学基金面上项目:调控小麦TaAGPL1基因表达的转录因子的分离及其功能研究,起止日期:2016.01–2019.12(主持)国家自然科学基金面上项目:小麦AGPase质体型小亚基(TaSSUII)转移肽大片段缺失与籽粒淀粉积累速率的关系,起止日期:2012.01–2015.12(主持)国家自然科学基金面上项目:过表达AGPase大亚基基因对小麦籽粒淀粉含量的影响,起止日期:2009.01–2011.12(主持)国家“万人计划”–科技创新领军人才支持计划:小麦淀粉合成的分子机制,起止日期:2017.01–2019.12(主持)国家重点研发计划子课题:黄淮海冬小麦产量与效率层次差异形成机制,起止日期:2016.01–2020.12(主持)国家转基因生物新品种培育科技重大专项-子课题:高产转基因小麦新品种培育,起止日期:2016.01–2020.12(主持)国家科技支撑计划–专题:黄淮麦区抗逆增产技术研究集成与示范,起止日期:2015.04–2018.03(主持)中国博士后科学基金:籽粒充实度不同的小麦品种间淀粉合成基因的表达差异研究,起止日期:2006.01–2007.12(主持)河南省科技创新人才(杰出青年)支持计划:小麦淀粉转录因子的分离及优异小麦种质资源的创育,起止日期:2017.01–2018.12(主持)河南高校科技创新人才支持计划:小麦籽粒淀粉合成调控因子的分离及其功能研究,起止日期:2015.01–2017.12(主持)河南省科技攻关:转LSUI基因提高小麦籽粒淀粉含量的研究,起止日期:2008.01–2010.12(主持)。著作:《AbioticStressandPlantResponses》,I.KInternation出版社,2009;《进化生物学》(第3版),高等教育出版社,2013;《小麦的穗》,中国农业出版社,2008;《河南小麦栽培育种研究进展》,中国农业科学技术出版社,2008。《小麦高产与防灾减灾技术》,中原农民出版社,2016。专利:国家发明专利:一种与植物抗盐性相关的基因及其在植物育种中的应用,第2,2010;国家发明专利:冬小麦–夏玉米轮作高产栽培施肥方法,第3,2016。奖励与荣誉奖励:国家科技进步二等奖:冬小麦根穗发育及产量品质协同提高关键栽培技术研究与应用,第8名,2009年;国家科技进步二等奖:油菜化学杀雄强优势杂种选育和推广,第10名,2009年。荣誉:国家高层次人才特殊支持计划(“万人计划”)–科技创新领军人才(2016);科技部创新人才推进计划-中青年科技创新领军人才(2014);河南省特聘教授(2016);河南省学术技术带头人(2016);河南省科技创新人才–杰出青年(2016);河南省创新型科技团队带头人(2016);河南省创新争先奖状(2017);河南省高校科技创新人才(2014);河南省教育厅学术技术带头人(2014);河南省优秀硕士学位论文指导教师(2013、2015、2017);河南省优秀博士后(2005);郑州市科技创新工作先进个人(2017);郑州市国家级领军人才(2018);河南农业大学优秀硕士学位论文指导教师(2013、2015、2017);河南农业大学教书育人先进个人(2014);河南农业大学优秀教师(2013)。
研究领域
(1)小麦淀粉合成的生理与分子机制;(2)小麦逆境胁迫的生理与分子机制"作物生理学"
近期论文
GeziLi,YufangWu,GuoyuLiu,XianghongXiao,PengfeiWang,TianGao,MengjunXu,QiaoxiaHan,YonghuaWang,TiancaiGuo,GuozhangKang*(2017)Large-scaleproteomicscombinedwithtransgenicexperimentsdemonstratesanimportantroleofjasmonicacidinpotassiumdeficiencyresponseinwheatandrice.MolCellProteomics16:1889–1905(SCI,IF:6.540)KangGuozhang*,LiGezi,WangLina,WeiLiting,YangYang,WangPengfei,YangYingying,WangYonghua,FengWei,WangChenyang,GuoTiancai*(2015)Hg-responsiveproteinsidentifiedinwheatseedlingsusingiTRAQanalysisandtheroleofABAinHgstress.JProteomeRes14,249–267(SCI,IF:5.001)KangGuozhang*,LiGezi,XuWei,PengXiaoqi,HanQiaoxia,ZhuYunji,GuoTiancai*(2012)Proteomicsrevealstheeffectsofsalicylicacidongrowthandtolerancetosubsequentdroughtstressinwheat.JProteomeRes11,6066–6079(SCI,IF:5.056)LiGezi,PengXiaoqi,XuanHongmei,WeiLiting,YangYingying,GuoTiancai,KangGuozhang*(2013)Proteomicanalysisofleavesandrootsofcommonwheat(TriticumaestivumL.)undercopper-stressconditions.JProteomeRes12,4846–4861(SCI,IF:5.113)KangGuozhang*,LiGezi,MaHongzhen,WangChenyang,GuoTiancai(2013)ProteomicanalysisontheleavesofTaBTF3genevirus-inducedsilencedwheatplantsmayrevealitsregulatorymechanism.JProteomics83,130–143(SCI,IF:4.088)WeiLiting,WangLina,YangYang,WangPengfei,GuoTiancai,KangGuozhang*(2015)Abscisicacidenhancestoleranceofwheatseedlingstodroughtandregulatestranscriptlevelsofgenesencodingascorbate-glutathionebiosynthesis.FrontPlantSci6,458(SCI,IF:3.948)KangGuozhang,WangChanghu,SunGuchou,WangZhengxun(2003)SalicylicacidchangesactivitiesofH2O2-metabolizingenzymesandincreasesthechilling-toleranceofbananaseedlings.EnvironExpBot50,9–15(SCI,IF:3.712)KangGuozhang,WangZhengxun,SunGuchou(2003)ParticipationofH2O2inenhancementofcoldchillingbysalicylicacidinbananaseedlings.ActaBotSin(JIntergrPlantBiol)45,567–573(SCI,IF:3.670)KangGuozhang*,LiGezi,ZhengBeibei,HanQiaoxia,WangChenyang,ZhuYunji,GuoTiancai*(2012)Proteomicanalysisonsalicylicacid-inducedsalttoleranceincommonwheatseedlings.BBA-ProteinsProteom1824,1324–1333(SCI,IF:3.635)KangGuozhang*,PengXiaoqi,YangYingying,WangLina,WangChenyang,ZhuYunji*,GuoTiancai(2015)Ultrastructuralobservationofmesophyllcellsandtemporalexpressionprofilesofthegenesinvolvedintransitorystarchmetabolisminflagleavesofwheatafteranthesis.PhysiolPlant153,12–29(SCI,IF:3.262)LiuGuoyu,WuYufang,XuMengjun,GaoTian,WangPengfei,WangLina,GuoTiancai*,KangGuozhang*(2016)Virus-inducedgenesilencingidentifiesanimportantroleoftheTaRSR1transcriptionfactorinstarchsynthesisinbreadwheat.IntJMolSci,17,1557(SCI,IF:3.257)GaoTian,LiGezi,WangChuanren,DongJie,YuanShasha,WangYonghua,KangGuozhang*(2018)FunctionoftheERFL1atranscriptionfactorinwheatresponsestowaterdeficiency.IntJMolSci19,1465(SCI,IF:3.257)ShaoRuixin,XinLongfei,MaoJun,LiLeilei,KangGuozhang*,YangQinghua*(2015)Physiological,ultrastructuralandproteomicresponsesintheleafofmaizeseedlingstopolyethyleneglycol-stimulatedseverewaterdeficiency.IntJMolSci16,21606–21625(SCI,IF:3.257)KangGuozhang*,MaHongzhen,LiuGuoqin,LiChengwei,GuoTiancai(2013)SilencingofTaBTF3geneimpairstolerancetofreezinganddroughtstressesinwheat.MolGenetGenomics288,591–599(SCI,IF:2.881)KangGuozhang*,LiuGuoqin,PengXiaoqi,WeiLiting,WangChenyang,ZhuYunji,MaYing,JiangYumei,GuoTiancai*(2013)IncreasingthestarchcontentandgrainweightofcommonwheatbyoverexpressionofthecytosolicAGPaselargesubunitgene.PlantPhysiolBiochem73,93–98(SCI,IF:2.755)HanQiaoxia,KangGuozhang*,GuoTiancai(2013)Proteomicanalysisofspringfreeze-stressresponsiveproteinsinleavesofbreadwheat.PlantPhysiolBiochem63,236–244(SCI,IF:2.755)MaHongzhen,LiuGuoqin,LiChengwei,KangGuozhang*,GuoTiancai(2012)IdentificationoftheTaBTF3geneinwheatandtheeffectofsilencingonwheatchloroplast,mitochondriaandmesophyllcelldevelopment.BiochemBiophyResCo426,608–614(SCI,IF:2.484)YangYang,GaoTian,XuMengjun,DongJie,LiHanxiao,WangPengfei,LiGezi,GuoTiancai,KangGuozhang*,WangYonghua*(2017)FunctionalanalysisofawheatAGPaseplastidialsmallsubunitwiththetruncatedtransitpeptide.Molecules22,386(SCI,IF:2.465)KangGuozhang,PengHuifang,HanQiaoxia,WangYonghua,GuoTiancai(2012)IdentificationandexpressionpatternofribosomalL5geneincommonwheat(TriticumaestivumL.).Gene493,62–68(SCI,IF:2.340)LiGezi,PengXiaoqi,WeiLiting,KangGuozhang*(2013)Salicylicacidincreasesthecontentsofglutathioneandascorbateandtemporallyregulatestherelatedgeneexpressioninsalt-stressedwheatseedlings.Gene529,321–325(SCI,IF:2.196)GuoTiancai,XuanHongmei,WangLina,YangYingying,WangYonghua,WangChenyang,KangGuozhang*(2014)TranscriptionanalysisofgenesencodingthewheatroottransporterNRT1andNRT2familiesduringnitrogenstarvation.JPlantGrowthRegul33,837–848(SCI,IF:2.058)KangG,ZhengB,ShenB,PengH,GuoT(2010)AnovelTa.AGP.S.1btranscriptinChinesecommonwheat(TriticumaestivumL.).ComptesRendusBiologies333,716–724(SCI,IF:1.712)KangGuozhang*,LeGezi,LiuGuoqin,XuWei,PengXiaoqi,WangChenyang,ZhuYunji,GuoTiancai(2013)Exogenoussalicylicacidenhanceswheatdroughttolerancebyinfluenceontheexpressionofgenesrelatedtoascorbate-glutathionecycle.BiolPlant57,718–724(SCI,IF:1.692)KangGuozhang,LiuChao,ShenBingquan,ZhengBeibei,GuoTiancai(2010)DifferenceinAGPasesubunitscouldbeassociatedwithstarchaccumulationingrainsbetweentwowheatcultivars.PlantGrowthRegul61,61–66(SCI,IF:1.673)KangGuozhang*,XuWei,LiuGuoqin,PengXiaoqi,GuoTiancai(2013)ComprehensiveanalysisofthetranscriptionofstarchsynthesisgenesandthetranscriptionfactorRSR1inwheatendosperm.Genome56,115–122(SCI,IF:1.668)WeiLiting,WangLina,WangPengfei,LiuGuoyu,WuYufang,KangGuozhang*(2015)Abscisicacidincreasesleafstarchcontentofpolyethyleneglycol-treatedwheatseedlingsbytemporallyincreasingtranscriptsofgenesencodingstarchsynthesisenzymes.ActaPhysiolPlant37,201(SCI,IF:1.548)KangGuozhang*,LiGezi,GuoTiancai(2014)Molecularmechanismofsalicylicacid-inducedabiotictoleranceinhigherplants.ActaPhysiolPlant36,2287–2297(SCI,IF:1.524)KangGuozhang*,LiGezi,YangWenping,HanQiaoxia,MaHongzhen,GuoTiancai(2013)Transcriptionalprofileofthespringfreezeresponseintheleavesofbreadwheat.ActaPhysiolPlant35,575–587(SCI,IF:1.305)KangGuozhang*,LiShuyi,PengHuifang,WangChenyang,ZhuYunji,GuoTiancai(2013)MolecularcloningandexpressionanalysisofstarchbranchingenzymeIIIgenefromcommonwheat.BiochemGenet51,377–386(SCI,IF:1.065)KangGuozhang*,LiuGuoqin,XuWei,ZhuYunji,WangChenyang,LingHongqing,GuoTiancai(2013)Identificationoftheisoamylase3geneincommonwheatanditsexpressionprofileduringthegrain-fillingperiod.GenetMolRes12,4264–4275(SCI,IF:1.009)
