陈志祥
sex
1
title
教授
department
生命科学学院
college

college2

degree
博士
recruit":0,"firstDiscipline1
生物学
secondaryDiscipline1

firstDiscipline2
药学
secondaryDiscipline2

executive

officePhone

mobilePhone

emailAddress
16K**@cjlu.edu.cn
businessAddress
天问科技楼A316室
individualResume
CURRICULUM VITAE\r\rNAME\t\t\t\tZhixiang Chen \r\rADDRESS\t\t\tDepartment of Botany and Plant Pathology\rPurdue University, West Lafayette, IN 47907-2054\rTEL: 765-494-4657/FAX: 765-494-5896\rzhixiang@purdue.edu\r\rPOSITIONS\t1995-2001 \tAssistant Professor \rDepartment of Microbiology, Molecular Biology and Biochemistry, University of Idaho\r2001-2002 \tAssociate Professor \rDepartment of Microbiology, Molecular Biology and Biochemistry, University of Idaho\r\t\t2002-2007\tAssociate Professor \rDepartment of Botany and Plant Pathology, Purdue University\r2007-\t\tProfessor \rDepartment of Botany and Plant Pathology, Purdue University\r\rEducation \t1978-1982\tB.S. (Horticulture), Zhejiang Agricultural University, China\r\t\t1984-1986\tM.S. (Genetics and Plant Breeding) \rDepartment of Plant Breeding and Biometry, Cornell University\t\r1986-1990\tPh.D. (Biochemistry and Molecular Biology) \rDepartment of Biochemistry, University of Nebraska-Lincoln\r\rMEMBERSHIPS\t\tAmerican Society of Plant Biologists\rAmerican Association for the Advancement of Science\r\rHONORS AND AWARDS\r\t\t\r2014 & 2015\tThe World’s Most Influential Scientific Minds-Highly Cited Researchers. Thomoson Reuters\r2006 \t\tDistinguished Alumni Award \rDepartment of Biochemistry, University of Nebraska-Lincoln\r1999-2000\tGamma Sigma Delta Honor Society of Agriculture Research Award, College of Agriculture, University of Idaho\r1989-1990\tWidaman Trust Distinguished Graduate Student Award\rUniversity of Nebraska-Lincoln\r\rPROFESSIONAL SERVICE\rNSF Signal Transduction and Regulation/Plant Biology Panel member (2005-2015)\rUSDA Plant Genomics & Plant Genetic Mechanisms Panel member (2000-2005)\rAssociate editor, Molecular Plant-Microbe Interaction, 2001-2004\rEditorial board member, Agricultural Sciences in China, 2007-2009\rEditorial board member, The Open Plant Science Journal 2007-\rEvaluator for the State Natural Science Awards, China\r\r\rMAJOR RESEARCH INTEREST: Molecular plant stress responses\ra. Plant WRKY transcription factors in plant stress responses.\rb. Salicylic acid biosynthesis and signaling.\rc. Autophagy and vesicle trafficking in plant stress responses.\rMAJOR FUNDED GRANTS\rRole of catalases in salicylic acid signaling, US Department of Agriculture (2000-2004)\rWRKY transcription factors in plant defense, US NSF (2001-2005)\rRNA-dependent RNA polymerases in plant antiviral defense, US NSF (2002-2005)\rFunctional analysis of Arabidopsis WRKY superfamily, US NSF (2004-2008)\rStrong and stable expression of transgenes, US Dept. of Agriculture (2006-2009)\rPlant innate immunity against necrotrophic pathogens, US NSF (2009-2014)\rA novel autophagy pathway against necrotrophic pathogens, US NSF (2015-2018)\r\rREPRESENTATIVE PUBLICATIONS (Total publications: 92; total citations>10,000)\rXie, Z., Fan, B., Chen, C., and Chen, Z. (2001) An important role of an inducible RNA-dependent RNA polymerase in plant antiviral defense. Proc. Natl. Acad. Sci. USA 98:6516-6521.\rYu, D., Chen, C. and Chen, Z. (2001) Evidence for an important role of WRKY DNA-binding proteins in the regulation of the NPR1 gene expression. Plant Cell 13:1527-1539.\rChen, C. and Chen, Z. (2002) Potentiation of developmentally regulated defense response by AtWRKY18, a pathogen-induced Arabidopsis transcription factor. Plant Physiol. 129:706-716.\rXu, X., Chen, C., Fan, B., and Chen, Z. (2006) Physical and functional interactions between pathogen-induced Arabidopsis WRKY18, WRKY40 and WRKY60 transcription factors. Plant Cell 18:1310-1326.\rKim, K.-C. Fan, B. and Chen, Z. (2006). Pathogen-induced WRKY7 transcription factor is a transcriptional repressor and enhances plant susceptibility to Pseudomonas syringae. Plant Physiol. 142:1180-1192.\rZheng, Z., Abu Qamar, S., Chen, Z., and Mengiste, T. (2006) The Arabidopsis WRKY33 transcription factor is required for resistance to necrotropic fungal pathogens. Plant J. 48:592-605.\rLuo, Z., and Chen, Z. (2007) Improperly terminated, unpolyadenylated mRNA of sense transgenes is targeted by RDR6-mediated RNA silencing in Arabidopsis. Plant Cell 19:943-958.\rCui, X., Fan, B., Schoelz, J., and Chen, Z. (2007) Roles of Arabidopsis Cyclin-dependent kinase C complexes in CaMV infection, plant growth and development. Plant Cell 19:1388-1402.\rKang, C., Fan, B., and Chen, Z. (2008) Physical interactions and functional antagonism of Arabidopsis WRKY38 and WRKY62 transcription factors with HDA19 histone deacetylase in plant basal defense. Plant Cell 20:2357-2371.\rZheng, Z., Qualley, A., Fan, B., Dudareva, N., and Chen, Z. (2009) An important role of a novel BAHD acyl transferase-like protein in plant innate immunity. Plant J. 57:1040-1053.\rXia, X.J., Wang, Y. J., Zhou, Y. H., Mao, W. H., Shi, K., Asami, T., Chen, Z., and Yu, J. Q. (2009) Reactive oxygen species plays a crucial role in brassinosteroids-induced stress tolerance in Cucumis sativus. Plant Physiol. 150:801-814.\rHuang, J., Gu, M., Lai, Z., Fan, B., Shi, K., Zhou, Y.-H., Yu, J.-Q., and Chen, Z. (2010) Functional analysis of the Arabidopsis PAL gene family in plant growth, development and response to environmental stress. Plant Physiol. 153:1526-1538.\rLai, Z., Wang F., Zheng, Z., Fan, B. and Chen, Z. (2011) An important role of autophagy in plant resistance to necrotrophic fungal pathogens. Plant J. 66:953-968.\rMao, G., Meng, X., Liu, Y., Zheng, Z., Chen, Z., and Zhang, S. (2011) Phosphorylation of a WRKY transcription factor by two pathogen-responsive MAPKs drives phytoalexin biosynthesis in Arabidopsis. Plant Cell 23:1639-1653.\rLai, Z. Li, Y., Wang, F., Cheng, Y., Fan, B., Yu, J.-Q.and Chen, Z. (2011) Arabidopsis sigma factor-binding proteins are coactivators of WRKY33 transcription factor in defense against necrotrophic pathogens. Plant Cell 23:3824-3841.\rCheng, Y., Zhou, Y., Yang, Y., Chi, Y.-J., Zhou, J., Chen, J.-Y., Wang, F., Fan, B., Shi, K., Zhou, Y.-H., Yu, J.-Q., Chen, Z. (2012) Structural and functional analysis of VQ motif-containing proteins in Arabidopsis and soybean as WRKY-interacting proteins. Plant Physiol. 159: 810-825.\rZhou, J., Wang, J., Cheng, Y., Chi, Y.-J., Fan, B., Yu, J.-Q., Chen, Z. (2013) NBR1-mediated selective autophagy targets insoluble ubiquitinated protein aggregates in plant stress responses. Plos Genetics 9: e**.\rZhou, J., Zhang, Y., Qi, J., Chi, Y., Fan, B., Yu, J.-Q., Chen, Z. (2014). The ubiquitin E3 ligase CHIP and NBR1-mediated selective autophagy protect additively against proteotoxicity in plant stress responses. PLOS Genetics 10:e**.\rZhou, J., Yu, J.-Q., Chen, Z. (2014) The perplexing role of autophagy in plant innate immune responses. Mol. Plant Pathol. 15:637-645.\rZhou, J., Wang, J., Yu, J.-Q., Chen, Z. (2014) Role and regulation of autophagy in heat stress responses of tomato plants. Front. Plant Sci. 5:174. doi: 10.3389/fpls. 2014.00174\rWang, F., Shang, Y., Fan, B., Chen, Z. (2014) Arabidopsis LIP5, a regulator of SKD1 AAA ATPase in multivesicular body biogenesis, is a critical target of pathogen-responsive MAPKs in plant basal defense. Plos Pathogens 10:e**.\rChi, Y-J., Yang, Y., Li, G.-P., Wang, F., Wang Z., Fan, B., Yu, J.-Q., Chen, Z. (2015) Identification and characterization of a novel group of legume-specific, Golgi apparatus-localized WRKY and Exo70 proteins from soybean. J. Exp. Bot. 66:3055-3070.\rZhou, J., Wang, J., Zheng, Z., Fan, B., Yu, J.-Q., Chen, Z. (2015). Characterization of the promoter and extended C-terminal domain of Arabidopsis WRKY33 and functional analysis of tomato WRKY33 homologs in plant stress responses. J. Exp. Bot. 66:4567-4583.\rWang, F., Yang, Y. Wang, Z., Zhou, J., Fan, B., and Chen, Z. (2015) A critical role of LIP5, a positive regulator of multivesicular body biogenesis, in plant responses to heat and salt stresses. Plant Physiol. 169:497-511.\rGao, M., Li, X., Huang, J., Gropp, G., Gjetvaj, B., Lindsay, D., Wei, S., Cathy, C., Chen, Z., Wan, X., Hannoufa, A., Gruber, M., Lydiate, D., Chen, Z. J., and Hegedus, D. (2015) SCARECROW-LIKE15 interacts with HISTONE DEACETYLASE19 and is essential for repressing the seed maturation program. Nat. Commun (doi: 10.1038/ncomms8243).\rLiu, Y., Zhang, D., Ping, J., Li, S., Chen, Z., Ma, J. (2016) Innovation of a regulatory mechanism modulating semi-determinate stem growth through artificial selection in soybean. Plos Genetics 12:e**.\rYang Y., Chi, Y., Wang, Z., Zhou, Y., Fan, B., and Chen, Z. (2016) Functional analysis of structurally related soybean GmWRKY58 and GmWRKY76 in plant growth and development. J. Exp. Bot. 67(15):4727-42. doi: 10.1093/jxb/erw252.\rLi, X., Cai, C., Wang, Z., Fan, B., Zhu, C., & Chen, Z. Plastid Translation Elongation Factor Tu Is Prone to Heat-Induced Aggregation Despite Its Critical Role in Plant Heat Tolerance. Plant Physiology, 2018,176(4), 3027–3045. \r Li X., Bao H , Wang Z , et al. Biogenesis and Function of Multivesicular Bodies in Plant Immunity[J]. Frontiers in Plant Science, 2018, 9:979. \rZhou J, Wang Z, Wang X, Li, X., Zhang, Z., Fan, B., Zhu,C., and Chen, Z. Dicot-specific ATG8-interacting ATI3 proteins interact with conserved UBAC2 proteins and play critical roles in plant stress responses. Autophagy, 2018:1-56. \rWang Z., Li,X.* ,Wang X.,Zhu,C., and Chen,Z. Arabidopsis ER-localized UBAC2 proteins interact with PAMP-INDUCED COILED-COIL to regulate pathogen-induced callose deposition and plant Immunity. The Plant Cell, 2019,31,153-171. \rWang Z, Li X, Liu N, Peng Q, Wang Y, Fan B, Zhu C, Chen Z. A Family of NAI2-Interacting Proteins in the Biogenesis of the ER Body and Related Structures. Plant Physiology, 2019, 180(1): 212-227. \r\r
researchTopic
植物TFⅡB 转录因子家族成员扩增及功能多样化研究（2019.11-2022.10） 政府间国际科技创新合作重点专项
awards
2018 世界最具影响力科学家 科睿唯安 \r2015 世界上最具影响力的科学家 汤森路透\r2014 世界上最具影响力的科学家 汤森路透\r2006 杰出校友 内布拉斯加林肯大学\r1999-2000 Gamma Sigma Delta农业研究学会荣誉奖 爱达荷大学\r
researchProject

publications
Li, X., Cai, C., Wang, Z., Fan, B., Zhu, C., & Chen, Z. Plastid Translation Elongation Factor Tu Is Prone to Heat-Induced Aggregation Despite Its Critical Role in Plant Heat Tolerance. Plant Physiology, 2018,176(4), 3027–3045. \r Li X., Bao H , Wang Z , et al. Biogenesis and Function of Multivesicular Bodies in Plant Immunity[J]. Frontiers in Plant Science, 2018, 9:979. \rZhou J, Wang Z, Wang X, Li, X., Zhang, Z., Fan, B., Zhu,C., and Chen, Z. Dicot-specific ATG8-interacting ATI3 proteins interact with conserved UBAC2 proteins and play critical roles in plant stress responses. Autophagy, 2018:1-56. \rWang Z., Li,X.* ,Wang X.,Zhu,C., and Chen,Z. Arabidopsis ER-localized UBAC2 proteins interact with PAMP-INDUCED COILED-COIL to regulate pathogen-induced callose deposition and plant Immunity. The Plant Cell, 2019,31,153-171. \rWang Z, Li X, Liu N, Peng Q, Wang Y, Fan B, Zhu C, Chen Z. A Family of NAI2-Interacting Proteins in the Biogenesis of the ER Body and Related Structures. Plant Physiology, 2019, 180(1): 212-227. \r
others

correlation
researchDirection1
植物抗病抗逆分子机理研究
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researchDirection4