-贾文锁-


基本信息
姓名* 贾文锁
职称 教授
职务 中国农学大学 果树系 主任;农学与生物技术学院学术委员会委员
学历 博士
所属系 果树学系
联系方式
电子邮箱
研究方向 果树果实发育及其品质调控的信号转导机制植物是多细胞生命体,细胞之间的物质和信息交流是植物生长和发育的基础。细胞的信号转导是指细胞在接受特定的刺激后,细胞内部会激发出一系列复杂的细胞级联反应,其结果导致一系列复杂的基因表达和代谢调控,最终操纵了植物特定的生长模式和反应行为。信号转导研究是当今生命科学的热点和前言科学。果树果实发育及其品质调控是果树学的核心问题,值得注意的是,果树果实发育和品质形成本质上也是由细胞信号转导操纵的。但是多年来,有关果树果实生长发育机理的研究多局限于对果实发育过程中生理、生化变化的分析上,对操纵果实发育的根本机制,也就是信号转导机制,几乎没有了解。本研究旨在从信号转导的角度,揭示果树果实发育、品质形成及成熟调控的奥秘。近年来,我们围绕着细胞信号转导开展了很多研究。曾先后在“New Phytologist”、“Plant Journal” 、“Plant Physiology” 、“Plant,Cell and Environment” 、 “Journal of Experimental Botany”等国际权威刊物上发表论文多篇。其中,在Plant Physiology (143:68-77)刊载的论文曾入选2007年中国最具影响力的百篇国际学术论文。这是中国农业大学历史上, 继《CELL》和《NATURE》论文外,第三篇获得此荣誉的论文。论文发表情况,详见目录。除细胞信号转导外,我们另一个研究方向是蓝莓和黑果越橘等功能水果的开发和利用研究。蓝莓和黑果越橘果实中富含抗氧化物质,不仅口感极佳,而且对人体有很好的保健功能。因其栽培困难、价格昂贵,俗称‘贵族果树’。本研究旨在培育及建立适于一般土壤栽培的蓝莓和黑果越橘生产体系,并寻求相关产品的开发和利用。

个人简历

1981-1985 北京林业大学 本科 1985-1988 北京林业大大学 硕士生 1991-1994 中国农业大学 博士生 1996-2002 中国农业大学 副教授 1996-2000 香港浸会大学 访问学者 2005-2007 英国Lancaster university 访问学者 2002-至今 中国农业大学 教授


发表论文

Jia HF, Wang YH, Sun MZ, Li BB,  Han Y,  Zhao YX, Li XL , Ding N, Li C, Ji WL,  Jia WS. * (2013). Sucrose Functions as a Signal Involved in the Regulation of Strawberry Fruit Development and Ripening.  New Phytologist , doi: 10.1111/nph.12176, 2013. Li BB, Zhao YX, Liang LY, Ren HB, Xing Y, Chen L, Sun MZ, Wang YH, Han Y, Jia HF, Huang CL, Wu ZY, and Jia WS* (2012) Purification and Characterization of ZmRIP1, a Novel Reductant-Inhibited Protein Tyrosine Phosphatase from Maize. Plant Physiology , 159:1–11, 2012. Wu T, Zhang HT, Wang Y, Jia WS, Xu XF, Zhang XZ, Han ZH. Induction of root Fe(lll) reductase activity and proton extrusion by iron deficiency is mediated by auxin-based systemic signalling in Malus xiaojinensis. Journal of Experimental Botany , 63: 859-870, 2011. Li BB, Xie M, Sun MZ, Jia WS*. How does plasema membrane surface area accommodate alterations in guard cell volume stomatal closing ? Plant Signaling & Behavior , 5: 1468–1469, 2010. Li BB, Feng ZG, Deng Y, Liu GF, Xie M, Sun MZ, Ding N, Liu G, Zhang J, Jia WS*  . Excretion and folding of plasmalemma function to accommodate alterations in guard cell volume during stomatal closing in Vicia faba L. Journal of Experimental Botany. 61:3749-3758 , 2010. Li BB, Feng ZG, Deng Y, Liu GF, Xie M, Sun MZ, Ding N, Liu G, Zhang J, Jia WS* . Excretion and folding of plasmalemma function to accommodate alterations in guard cell volume during stomatal closing in Vicia faba L.  Journal of Experimental Botany , 61:3749-3758, 2010. Liu YG, Shi L, Ye Nenghui, Liu Rui, Jia WS, Zhang J.  Nitric oxide-induced rapid decrease of abscisic acid concentration is required in breaking seed dormancy in Arabidopsis. New Phytologist. 183:1030-1042, 2009. Xing Y, Jia WS*, Zhang J. AtMKK1 and AtMPK6 are involved in absisic acid and sugar signaling in Arabidopsis seed germination. Plant Molecular Biology,70:725-736, 2009. Xing Y, Jia WS*, Zhang J.  AtMEK1 mediates stress-induced gene expression of CAT1 catalase via triggering H2O2 production in Arabidopsis. Plant Journal, 54:440-451, 2008.   Jia W, Zhang J. Stomatal movements and long-distance signaling in plants. Plant Signaling & Behavior, 10: 772-777. Li BB, Zhou XY,Gao ZH, Ren HB, Jia W* . Confocal Technique Applicable to Studies of Cellular pH-related Signaling in Plants. Journal of Integrative Plant Biology, 50 : 682–690,  2008. Ma N, Xue J, Li Y, Liu X, Dai F, Jia W, Luo Y, Gao J. Rh-PIP2;1, a Rose Aquaporin Gene, Is Involved in Ethylene-Regulated Petal Expansion.  Plant Physiology,148: 894-907, 2008. Zhang S, Yao A, Bai H, Ren J, Jia W, Zhang L, Hu J. The VAP1 gene expression in relation to GAs effect on tendrils, buds and flowers development in “Xiangfei” grapevine. Scientia Horticulturae, 117: 225-230, 2008. Xing Y, Jia W*, Zhang J. AtMEK1 mediates stress-induced gene expression of CAT1 5 catalase by triggering H2O2 production in Arabidopsis. Journal of Experimental Botany, 58:2969–2981, 2007. Jia W, Davies WJ. Modification of leaf apoplastic pH in relation to stomatal sensitivity to root-sourced ABA signals. Plant physiology. Plant Physiology, 143:68-77, 2007. Ren HB, Gao ZH, Chen L, Wei KF, Liu J, Fan YJ, Jia W*,Zhang J. Dynamic analysis of ABA accumulation in relation to therate of ABA catabolism in maize tissues under water deficit. Journal of Experimental Botany, 58:211-219, 2007. Ren HB , Wei KF, Jia W, Davies WJ, Zhang J.  Modulation of Root Signals in Relation to Stomatal Sensitivity to root-sourced ABA in droughted plants. Journal of Integrative Plant Biology, 49:1413-1421, 2007. Liu X, Wang YQ, Jia W,  Lou CH, Zhang SQ. Localization of NOS-like protein in guard cells of Vicia faba L. and its possible function Chinese Science Bulletin, 52:84-90, 2007. Ren HB,Fan YJ,Gao ZH,Wei KF,Li GF,Liu J,Chen L,Li BB,Hu JF, Jia W* . Roles of a sustained       activation of NCED3 and the synergistic regulation of ABA biosynthesis and catabolism in ABA signal production in Arabidopsis. Chinese Science Bulletin, 52:484-491, 2007. Yang SJ,Huang CL,Wu ZY,Hu JF,Li TZ, Liu SG, Jia W*. Stomatal movement in response to long distance- communicated signals initiated by heat shock in partial roots of Commelina communis L. Science in China Series C, 49: 1-8, 2007. Zhang J, Jia W*, Yang J and Ismail AM. Role of ABA in integrating plant responses to drought and salt stresses. Field Crops Research, 97: 111- 119, 2006. Zou H, Wu ZY, Yang Q, Zhang X, Cao MQ, Jia W*, Huang CL, and Xiao X. Gene expression analyses of ZmPti1, encoding a maize Pti-like kinase, suggest a role in stress signaling .Plant Science, 171: 99-105, 2006.   Hu J, Jia W*.  Regulation of Water deficit-induced ABA accumulation by apoplastic ascorbic acid in maize seedlings. Journal of Integrative Plant Biology. 47:1335-1344,2005. Shi W, Liu X, Jia W, Zhang SQ. Protein Tyrosine Phosphatase Mediate the Signaling Pathway of Stomatal Closure of Vicia faba L. Journal of Integrative Plant Biology, 47: 319-326, 2005. Fan YJ, Wei KF, Li BB, Ren HB, Gao ZH, Jia WS*.  Modulation of leaf conduction by root to shoot signaling under water stress in Arabidopsis Forestry Studies in China,8, 1-5, 2006. Shi W, Jia W, Liu X, Zhang SQ. Protein tyrosine phosphatases involved in signaling of the ABA-induced H2O2 generation in guard cells of Vicia faba L. Chinese Science Bulletin,49: 1841~1846, 2004. Jia W, Xing Y, Lu CM, Zhang J. Signal Transduction from Water Strss Perception to ABA accumulation. Acta Botanica Sinica. 44: 1135-1141, 2002. Jia W, Wang YQ, Zhang SQ, Zhang JH. Salt-stress-induced ABA accumulation is more sensitively triggered in roots than in shoots. Journal of Experimental Botany. 53, 2201-2206, 2002. Jia W, Xing Yu, Lu CM, Zhang J. Signal transduction from water stress perception to ABA accumulation. Acta Botanica Sinica, 44: 1135-1141, 2002. Xing Y, Jia W*.  Protein tyrosine phosphtase is possibly involved in stress signaling and controlling of ABA in plants. Chinese Science Bulletin, 48:369-374, 2002. Jia W, He FL, Zhang DP. The triggering mechanism of water deficit-induced ABA accumulation in Vicia faba L. Science in China (C), 31:213-21, 2001. Yang HQ, Jia W,Huang CL, Zhang DP. Water stress-induced ABA accumulation in relation to protein phosphorylation in apple roots. Chinese Science Bulletin, 46 : 50-53, 2001. Yang H, Jia WS*. Relationships between lipoxygenase activity and ABA accumulation in Malus hupehensis roots under water stress.  Acta Botanica Sinica. 42: 244-248, 2000. Liang XE, Zhang DP, Jia WS*. Identification and characterization of protein kinases in developing fruit of grape and apple. Acta Botanica Sinica. 42:1131-1136, 2000. Jia W, Zhang J. Water stress-induced abscisic acid accumulation in relation to reducing agents and sulhydrl modifiers in maize plant.  Plant, cell and Environment. 23:1389-139, 2000. Jia W, Zhang J. Initiation and regulation of water deficit-induced abscisic acid accumulation in maize leaves and roots: cellular volume and water relations. Journal of Experimental Botany, 52:295-30, 2001. Jia W, Zhang JH. Stomatal closure is induced rather by prevailing xylem abscisic acid than by accumulated amount of xylem-derived abscisic acid.  Physiologia Plantarum, 106:268-275, 1999. Zhang DP, Zhang ZL, Chen J, Jia W*. Specific abscisic acid-binding sites in mesocarp of grape berry: Properties and subcellular localization.  Journal of Plant Physiology,155: 324-331,1999. Zhang DP, Huang CL, Jia W*. Immunogold electron-microscopy localiztion of abscisic acid in flesh cells of grap berry. Scientia Horticulturae, 81:189-198, 1999. Wu ZY, Jia WS*.  Conditional selection of the extraction and isolation of ABA binding protein from Vicia faba L epidermis.  Acta Botanica Sinica, 41:640-644,1999. Wu ZY, Zhang DP, Jia WS* . Isolation and purification of ABA binding protein from abaxial epiderm of Vicia faba leaf. Acta Botanica Sinica, 41:842-845,1999. Jia W,Zhang J. Comparison of exportation and metabolism of xylem-delivered ABA in maize leaves at different water status and xylem sap pH.  Plant Growth Regulation, 21:43-49, 1997. Zhang J, Jia W*, Zhang DP. Re-export metabolism of xylem-delivered ABA in attached maize leaves under different transpirational fluxes and xylem ABA concentration.  Journal of Experimental Botany, 48: 1557-1564,1997. Zhang J, Jia W*. Effects of water status and xylem pH on metabolism of xylem transported abscisic acid.  Plant Growth Regulation, 21: 51-58, 1997. Jia W, Zhang J, Zhang DP. Metabolism of xylem-delivered ABA in relation to ABA flux and concentration in leaves of maize and Commelina communis L.  Journal of Experimental Botany,   47:1085-1091,1996. Jia HF, Wang YH, Sun MZ, Li BB,  Han Y,  Zhao YX, Li XL , Ding N, Li C, Ji WL,  Jia WS. * (2013). Sucrose Functions as a Signal Involved in the Regulation of Strawberry Fruit Development and Ripening.  New Phytologist , doi: 10.1111/nph.12176, 2013. Li BB, Zhao YX, Liang LY, Ren HB, Xing Y, Chen L, Sun MZ, Wang YH, Han Y, Jia HF, Huang CL, Wu ZY, and Jia WS* (2012) Purification and Characterization of ZmRIP1, a Novel Reductant-Inhibited Protein Tyrosine Phosphatase from Maize. Plant Physiology , 159:1–11, 2012. Wu T, Zhang HT, Wang Y, Jia WS, Xu XF, Zhang XZ, Han ZH. Induction of root Fe(lll) reductase activity and proton extrusion by iron deficiency is mediated by auxin-based systemic signalling in Malus xiaojinensis. Journal of Experimental Botany , 63: 859-870, 2011. Li BB, Xie M, Sun MZ, Jia WS*. How does plasema membrane surface area accommodate alterations in guard cell volume stomatal closing ? Plant Signaling & Behavior , 5: 1468–1469, 2010. Li BB, Feng ZG, Deng Y, Liu GF, Xie M, Sun MZ, Ding N, Liu G, Zhang J, Jia WS*  . Excretion and folding of plasmalemma function to accommodate alterations in guard cell volume during stomatal closing in Vicia faba L. Journal of Experimental Botany. 61:3749-3758 , 2010. Li BB, Feng ZG, Deng Y, Liu GF, Xie M, Sun MZ, Ding N, Liu G, Zhang J, Jia WS* . Excretion and folding of plasmalemma function to accommodate alterations in guard cell volume during stomatal closing in Vicia faba L.  Journal of Experimental Botany , 61:3749-3758, 2010. Liu YG, Shi L, Ye Nenghui, Liu Rui, Jia WS, Zhang J.  Nitric oxide-induced rapid decrease of abscisic acid concentration is required in breaking seed dormancy in Arabidopsis. New Phytologist. 183:1030-1042, 2009. Xing Y, Jia WS*, Zhang J. AtMKK1 and AtMPK6 are involved in absisic acid and sugar signaling in Arabidopsis seed germination. Plant Molecular Biology,70:725-736, 2009. Xing Y, Jia WS*, Zhang J.  AtMEK1 mediates stress-induced gene expression of CAT1 catalase via triggering H2O2 production in Arabidopsis. Plant Journal, 54:440-451, 2008.   Jia W, Zhang J. Stomatal movements and long-distance signaling in plants. Plant Signaling & Behavior, 10: 772-777. Li BB, Zhou XY,Gao ZH, Ren HB, Jia W* . Confocal Technique Applicable to Studies of Cellular pH-related Signaling in Plants. Journal of Integrative Plant Biology, 50 : 682–690,  2008. Ma N, Xue J, Li Y, Liu X, Dai F, Jia W, Luo Y, Gao J. Rh-PIP2;1, a Rose Aquaporin Gene, Is Involved in Ethylene-Regulated Petal Expansion.  Plant Physiology,148: 894-907, 2008. Zhang S, Yao A, Bai H, Ren J, Jia W, Zhang L, Hu J. The VAP1 gene expression in relation to GAs effect on tendrils, buds and flowers development in “Xiangfei” grapevine. Scientia Horticulturae, 117: 225-230, 2008. Xing Y, Jia W*, Zhang J. AtMEK1 mediates stress-induced gene expression of CAT1 5 catalase by triggering H2O2 production in Arabidopsis. Journal of Experimental Botany, 58:2969–2981, 2007. Jia W, Davies WJ. Modification of leaf apoplastic pH in relation to stomatal sensitivity to root-sourced ABA signals. Plant physiology. Plant Physiology, 143:68-77, 2007. Ren HB, Gao ZH, Chen L, Wei KF, Liu J, Fan YJ, Jia W*,Zhang J. Dynamic analysis of ABA accumulation in relation to therate of ABA catabolism in maize tissues under water deficit. Journal of Experimental Botany, 58:211-219, 2007. Ren HB , Wei KF, Jia W, Davies WJ, Zhang J.  Modulation of Root Signals in Relation to Stomatal Sensitivity to root-sourced ABA in droughted plants. Journal of Integrative Plant Biology, 49:1413-1421, 2007. Liu X, Wang YQ, Jia W,  Lou CH, Zhang SQ. Localization of NOS-like protein in guard cells of Vicia faba L. and its possible function Chinese Science Bulletin, 52:84-90, 2007. Ren HB,Fan YJ,Gao ZH,Wei KF,Li GF,Liu J,Chen L,Li BB,Hu JF, Jia W* . Roles of a sustained       activation of NCED3 and the synergistic regulation of ABA biosynthesis and catabolism in ABA signal production in Arabidopsis. Chinese Science Bulletin, 52:484-491, 2007. Yang SJ,Huang CL,Wu ZY,Hu JF,Li TZ, Liu SG, Jia W*. Stomatal movement in response to long distance- communicated signals initiated by heat shock in partial roots of Commelina communis L. Science in China Series C, 49: 1-8, 2007. Zhang J, Jia W*, Yang J and Ismail AM. Role of ABA in integrating plant responses to drought and salt stresses. Field Crops Research, 97: 111- 119, 2006. Zou H, Wu ZY, Yang Q, Zhang X, Cao MQ, Jia W*, Huang CL, and Xiao X. Gene expression analyses of ZmPti1, encoding a maize Pti-like kinase, suggest a role in stress signaling .Plant Science, 171: 99-105, 2006.   Hu J, Jia W*.  Regulation of Water deficit-induced ABA accumulation by apoplastic ascorbic acid in maize seedlings. Journal of Integrative Plant Biology. 47:1335-1344,2005. Shi W, Liu X, Jia W, Zhang SQ. Protein Tyrosine Phosphatase Mediate the Signaling Pathway of Stomatal Closure of Vicia faba L. Journal of Integrative Plant Biology, 47: 319-326, 2005. Fan YJ, Wei KF, Li BB, Ren HB, Gao ZH, Jia WS*.  Modulation of leaf conduction by root to shoot signaling under water stress in Arabidopsis Forestry Studies in China,8, 1-5, 2006. Shi W, Jia W, Liu X, Zhang SQ. Protein tyrosine phosphatases involved in signaling of the ABA-induced H2O2 generation in guard cells of Vicia faba L. Chinese Science Bulletin,49: 1841~1846, 2004. Jia W, Xing Y, Lu CM, Zhang J. Signal Transduction from Water Strss Perception to ABA accumulation. Acta Botanica Sinica. 44: 1135-1141, 2002. Jia W, Wang YQ, Zhang SQ, Zhang JH. Salt-stress-induced ABA accumulation is more sensitively triggered in roots than in shoots. Journal of Experimental Botany. 53, 2201-2206, 2002. Jia W, Xing Yu, Lu CM, Zhang J. Signal transduction from water stress perception to ABA accumulation. Acta Botanica Sinica, 44: 1135-1141, 2002. Xing Y, Jia W*.  Protein tyrosine phosphtase is possibly involved in stress signaling and controlling of ABA in plants. Chinese Science Bulletin, 48:369-374, 2002. Jia W, He FL, Zhang DP. The triggering mechanism of water deficit-induced ABA accumulation in Vicia faba L. Science in China (C), 31:213-21, 2001. Yang HQ, Jia W,Huang CL, Zhang DP. Water stress-induced ABA accumulation in relation to protein phosphorylation in apple roots. Chinese Science Bulletin, 46 : 50-53, 2001. Yang H, Jia WS*. Relationships between lipoxygenase activity and ABA accumulation in Malus hupehensis roots under water stress.  Acta Botanica Sinica. 42: 244-248, 2000. Liang XE, Zhang DP, Jia WS*. Identification and characterization of protein kinases in developing fruit of grape and apple. Acta Botanica Sinica. 42:1131-1136, 2000. Jia W, Zhang J. Water stress-induced abscisic acid accumulation in relation to reducing agents and sulhydrl modifiers in maize plant.  Plant, cell and Environment. 23:1389-139, 2000. Jia W, Zhang J. Initiation and regulation of water deficit-induced abscisic acid accumulation in maize leaves and roots: cellular volume and water relations. Journal of Experimental Botany, 52:295-30, 2001. Jia W, Zhang JH. Stomatal closure is induced rather by prevailing xylem abscisic acid than by accumulated amount of xylem-derived abscisic acid.  Physiologia Plantarum, 106:268-275, 1999. Zhang DP, Zhang ZL, Chen J, Jia W*. Specific abscisic acid-binding sites in mesocarp of grape berry: Properties and subcellular localization.  Journal of Plant Physiology,155: 324-331,1999. Zhang DP, Huang CL, Jia W*. Immunogold electron-microscopy localiztion of abscisic acid in flesh cells of grap berry. Scientia Horticulturae, 81:189-198, 1999. Wu ZY, Jia WS*.  Conditional selection of the extraction and isolation of ABA binding protein from Vicia faba L epidermis.  Acta Botanica Sinica, 41:640-644,1999. Wu ZY, Zhang DP, Jia WS* . Isolation and purification of ABA binding protein from abaxial epiderm of Vicia faba leaf. Acta Botanica Sinica, 41:842-845,1999. Jia W,Zhang J. Comparison of exportation and metabolism of xylem-delivered ABA in maize leaves at different water status and xylem sap pH.  Plant Growth Regulation, 21:43-49, 1997. Zhang J, Jia W*, Zhang DP. Re-export metabolism of xylem-delivered ABA in attached maize leaves under different transpirational fluxes and xylem ABA concentration.  Journal of Experimental Botany, 48: 1557-1564,1997. Zhang J, Jia W*. Effects of water status and xylem pH on metabolism of xylem transported abscisic acid.  Plant Growth Regulation, 21: 51-58, 1997. Jia W, Zhang J, Zhang DP. Metabolism of xylem-delivered ABA in relation to ABA flux and concentration in leaves of maize and Commelina communis L.  Journal of Experimental Botany,   47:1085-1091,1996.


科研项目
 

教学工作

1.本科:园艺学试验 2.硕士研究生:《科技论文写作》,《植物逆境信息传递》 3.博士生: 《果树学学研究动态》(参讲)

著作
奖励及其他