朱玉贤
院长
个人简介
学习经历 1978 年 09 月 - 1982 年 07 月,就读于浙江农业大学农学系种子专业,获学士学位。 1986 年 01 月 - 1990 年 01 月,在美国康奈尔大学植物科学系学习植物生理学,获博士学位。 主要工作经历与任职情况 1989 年 12 月 - 1991 年 06 月,在美国华盛顿大学生物系担任博士后。 1991 年 06 月 - 1992 年 06 月,于北京大学生物系从事博士后研究。 1992 年 07 月 - 1994 年 02 月,担任北京大学生命科学学院副教授。 1992 年 12 月 - 2002 年 08 月,出任蛋白质工程及植物基因工程国家重点实验室副主任。 1994 年 07 月 - 至今,担任北京大学生命科学学院教授、博士生导师。 1996 年 09 月 - 1997 年 07 月,作为高级访问学者在美国加州伯克利大学植物基因表达中心。 2002 年 09 月 - 至今,担任北京大学蛋白质与植物基因研究国家重点实验室主任。 2004 年 01 月 - 至今,担任国家自然科学基金委员会 “创新研究群体” 召集人。 2014 年 04 月 - 至今,担任武汉大学生命科学学院教授、武汉大学高等研究院院长。
研究领域
植物生理学
近期论文
1. Gao J, Huang G, Chen X, and Zhu YX (2022) PROTEIN S-ACYL TRANSFERASE 13/16 (PAT13/PAT16) modulate disease resistance by S-acylation of the NB-LRR protein R5L1 in Arabidopsis. Journal of Integrative Plant Biology, doi: 10.1111/jipb.13324. 2. Huang G, and Zhu YX (2022) Insights of section-wide pan-genome into hybrid potato breeding. Sci China Life Sci 65, doi.org/10.1007/s11427-022-2144-9. 3. Wu ZG, Xi W, Han ZX, Wu YH, Guan YZ, and Zhu YX (2022) Genome-Wide Comparative Analysis of Transposable Elements by Matrix-TE Method Revealed Indica and Japonica Rice Evolution. Agronomy-Basel, doi: 10.3390/agronomy12071490. 4. Hu J and Zhu YX (2022) Brief Biography of Professor Yingguo Zhu. Agronomy-Basel. doi: 10.3390/agronomy12040858. 5. Wen XP, Zhai YF, Zhang L, Chen YJ, Zhu ZY, Chen G, Wang K, and Zhu YX (2022) Molecular studies of cellulose synthase supercomplex from cotton fiber reveals its unique biochemical properties. Sci. China Life Sci. Accepted 6. Liu W, Sun J, Li J, Liu C, Si F, Yan B, Wang Z, Song X, Yang Y, Zhu YX and Cao XF (2022). Reproductive tissue-specific translatome of a rice thermo-sensitive genic male sterile line. J. Genet. Genomics. Online DOI: 10.1016/j.jgg.2022.01.002 7. Li S, Li L, Fan W, Ma S, Zhang C, Kim JC, Wang K, Russinova E, Zhu YX, and Zhou Y (2022). LeafNet: A tool for segmenting and quantifying stomata and pavement cells. Plant Cell. 34, 1171-1188. 8. Huang, G. & Zhu, Y.X. (2021) Breeding cotton with superior fiber quality: identification and utilization of multiple elite loci and exotic genetic resources. Sci China Life Sci 64, 1197–1198. 9. Huang G, Huang JQ, Chen XY, Zhu YX. (2021) Recent advances and future perspectives in cotton research. Annual Review of Plant Biology 72, 437-462. 10. Wen XP, Huang G, Li CY and Zhu YX (2021) A Malvaceae-specific miRNA targeting the newly duplicated GaZIP1L to regulate Zn2+ ion transporter capacity in cotton ovules. Sci. China Life Sci., 64, 339-351. 11. Huang G, Wu Z, Percy RG, Bai M, Li Y, Frelichowski JE, Hu J, Wang K, Yu, JZ, Zhu YX (2020) Genome sequence of Gossypium herbaceum and genome updates of Gossypium arboreum and Gossypium hirsutum provide insights into cotton A-genome evolution. Nature Genetics., 52, 515-524. 12. Wang ZH,Li Y, Hou B, Pronobis, MI, Wang MQ, Wang YM, Cheng GC, Weng WN, Wang YQ, Tang YF, Xu XF, Pan R, Lin F, Wang N, Chen ZQ, Wang SW, Ma LZ, Li YR, Huang DL, Jiang L, Wang ZQ, Zeng WF, Zhang Y, Du XM, Lin Y, Li ZQ, Xia QY, Geng J, Dai HP, Yu Y, Zhao XD, Yuan Z, Yan J, Nie QH, Zhang XQ, Wang K, Chen FL, Zhang Q, Zhu YX, Zheng S, Poss KD, Tao SC, Meng S. (2020) An array of 60,000 antibodies for proteome-scale antibody generation and target discovery. Sci. Adv. 6, eaax2271. 13. Liu NJ, Zhang T, Liu ZH, Chen X, Guo HS, Ju BH, Zhang YY, Li GZ, Zhou QH, Qin YM, Zhu YX (2020) Phytosphinganine affects plasmodesmata permeability via facilitating PDLP5-stimulated callose accumulation in Arabidopsis. Mol. Plant., 13, 128-143. 14. Wang D, Fan W, Guo X, Wu K, Zhou S, Chen Z, Li D, Wang K, Zhu YX, Zhou Y (2020). MaGenDB: a functional genomics hub for Malvaceae plants. Nucleic Acids Research, 48, D1076-D1084. 15. Wang, K., Wang, D., Zheng, X., Qin, A., Zhou, J., Guo, B., Chen, Y., Wen, X., Ye, W., Zhou, Y., Zhu, YX (2019). Multi-strategic RNA-seq analysis reveals a high-resolution transcriptional landscape in cotton. Nature Communications, 10, 4714. 16. Xia, Y.Y., Huang, G., Zhu, YX (2019). Sustainable plant diseases control: biotic information flow and behavior manipulation. SCIENCE CHINA Life Sciences. 62, 1710-1713. 17. Gai Huang and Yuxian Zhu. (2019) Plant polyploidy and evolution. Journal of Integrative Plant Biology, 61, 4–6. 18. Du XM, Gai H, He SP, Yang ZE, Sun GF, Ma XF, Li N, Zhang XY, Sun JL, Liu M, Jia YH, Pan ZE, Gong WF, Liu ZH, Zhu HQ, Ma L, Liu FY, Yang DG, Wang F, Fan W, Gong Q, Peng Z, Wang LR, Wang XY, Xu SJ, Shang HH, Lu CR, Zheng HK, Huang SW, Lin T, Zhu YX, Li FG. (2018) Resequencing of 243 diploid cotton accessions based on an, updated A genome identifies the genetic basis of key agronomic traits. Nature Genetics, 50, 796-802. 19. Wu ZG; Yang Y; Huang G; Lin J, Xia YY, Zhu YX (2017) Cotton functional genomics reveals global insight into genome evolution and fiber development, J Genet Genomics, 44, 511-518. 20. Zhang YZ, Jiao Y, Jiao HY, Zhao HB, Zhu YX. (2017) Two-step functional innovation of the stem-cell factors WUS/WOX5 during plant evolution. Mol. Biol. Evol. 34, 640-653. 21. Zhu YX. (2016) The post-genomics era of cotton. Science China-Life Sciences, 59, 109-111. 22. Jiao Y, Zhang YZ, Zhu YX (2016). Recent advances in the research for the homolog of breast cancer associated gene AtROW1 in higher plants. Science China Life Sciences. 59, 8:825-831. 23. Wang k, Hang G, Zhu YX. (2016) Transposable elements play an important role during cotton genome evolution and fiber cell development. Science China-Life Sciences, 59, 112-121. 24. Xiao GH, Wang K, Huang G, Zhu YX. (2016) Genome-scale analysis of the cotton KCS gene family revealed a binary mode of action for gibberellin A regulated fiber growth. Journal of Integrative Plant Biology, 58, 577-589. 25. Liu GJ, Xiao GH, Liu NJ, Liu D, Chen PS, Qin YM, Zhu YX. (2015) Targeted lipidomics studies reveal that linolenic acid promote cotton fiber elongation by activating phosphatidylinositol and phosphatidylinositol monophosphate biosynthesis. Mol Plant, 8, 911-921.