职称职务:教授、博士生导师/Professor, Doctoral Supervisor
植物科学系副主任/Deputy director of the department of plant sciences
学科专业:发育生物学/Developmental biology
研究方向:植物基因组与转录调控/Plant genomics and gene transcriptional regulation
实验室位置:生命科学学院大楼5023/Room 5023, College of Life Sciences Building, Wuhan University, Wuhan 430072
电话/Phone::027-68754887
电子邮件/Email: wangk05@whu.edu.cn
学习经历/Education:
2005-2009 武汉大学分子遗传学专业 博士/Wuhan University, PhD
2003-2005 武汉大学分子遗传学专业 硕士/Wuhan University, Master’s Degree
1999-2003 华中师大生物科学专业 学士/Central China Normal University, Bachelor’s Degree
工作经历/Professional experience:
2019- 武汉大学生命科学学院 教授Professor, College of Life Sciences, Wuhan University
2017-2018 比利时根特大学/VIB研究所 博士后Postdoc, University of Gent/VIB, Belgium
2016-2017 比利时根特大学/VIB研究所 访问学者 Visiting Scholar, University of Gent/VIB, Belgium
2014-2019 武汉大学生命科学学院 副研究员Associate professor, Wuhan University
2013-2014 中国科学院武汉植物园 副研究员Associate research, Wuhan Botanical Garden,CAS
2011-2013 中国科学院武汉植物园 助理研究员Research assistant, Wuhan Botanical Garden,CAS
2009-2011 武汉大学化学分子学院 博士后Postdoc, College of Chemistry and Molecular Sciences, Wuhan University
奖励及荣誉/Awards and Honors:
2021 国家高层次人才(青年项目入选)
2021 湖北省杰出青年基金
2017 武汉大学“双一流学科建设”(珞珈青年学者)
2015 武汉大学“985工程”(青年学者)
研究兴趣/Research interest:
1 植物基因组演化 Plant genomics and plant genome evolution
2 植物发育关键转录因子的功能和调控机制 Molecular regulation of plant transcription factors
3 植物非编码RNA的功能 The function of non-coding RNAs
团队招募/Team enrollment:
本实验室主要从事植物发育的分子机制和植物基因组学研究,欢迎生物相关专业的本科生和研究生,具有扎实的分子生物学,细胞学背景知识和技能,或是在生物信息学方向具有特长的学生免试推荐或报考加入我们的研究团队。本实验室招收博士后,欢迎加入团队开展合作研究。
研究项目(省部级以上)
国家科技部重大专项
国家自然科学基金面上项目
国家自然科学基金国际交流项目
近期发表论文(2016-):(#equal contribution author *corresponding author))
1. Wang D#, Hu X#, Ye HZ, Wang Y, Yang Q, Liang XD, Wang ZL, Zhou YF, Wen MM, Yuan XY, Zheng XM, Ye W, Guo BY, Yusuyin M, Russinova E, Zhou Y*, Wang K*(2023). Cell-specific clock-controlled gene expression program regulates rhythmic fiber cell growth in cotton. Genome Biology. DOI:10.1186/s13059-023-02886-0
2. Li SP#, Li LM#, Fan WL, Ma SP, Zhang C, Kim JC, Wang K, Russinova E, Zhu YX*, Zhou Y* (2022). LeafNet: A Tool for Segmenting and Quantifying Stomata and Pavement Cells. The Plant Cell. DOI:10.1093/plcell/koac021
3. Wen XP, Zhai YF, Zhang L, Chen YJ, Zhu ZY, Chen G, Wang K, Zhu YX* (2022). Molecular studies of cellulose synthase supercomplex from cotton fiber reveals its unique biochemical properties. SCIENCE CHINA Life Sciences. DOI: 10.1007/s11427-022-2083-9
4. Zheng XM, Chen YJ, Zhou YF, Li DY, Shi KK, Hu X, Ye HZ, Zhou Y, Wang K* (2021). Full-length annotation with multi-strategy RNA-seq uncovers transcriptional regulation of lncRNAs in cotton. Plant Physiology. DOI:10.1093/plphys/kiaa003
5. Chen YJ, Li DY, Fan WL, Zheng XM, Zhou YF, Ye HZ, Liang XD, Du W, Zhou Y, Wang K* (2020). PsORF:A database of small ORFs in plants. Plant Biotechnol J. DOI:10.1111/pbi.13389
6. Huang G#, Wu ZG#, Percy RG, Bai MZ, 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, 52:516-524
7. Wang Z, Li Y,…Wang K,…Meng X* (2020). An array of 60,000 antibodies for proteome-scale antibody generation and target discovery. Science Advances, 6(11): eaax2271
8. Wang D#, Fan W#, Guo X#, Wu K, Zhou S, Chen Z, Li D, Wang K*, Zhu YX*, Zhou Y* (2019). MaGenDB: a functional genomic hub for Malvaceae plants. Nucleic Acids Research, DOI: 10.1093/nar/gkz953
9. Wang K#, Wang DH #, Zheng XM, Qing A, Guo BY, Chen YJ, Ye W, Zhou Y*, and Zhu YX* (2019). Multi-strategic RNA-seq analysis reveals a high-resolution transcriptional landscape in cotton. Nature Communications, DOI:10.1038/s41467-019-12575-x
10. Houbaert A, Zhang C, Tiwari M, Wang K, de Marcos Serrano A, Savatin DV, Urs MJ, Zhiponova MK, Gudesblat GE, Vanhoutte I, Eeckhout D, Boeren S, Karimi M, Betti C, Jacobs T, Fenoll C, Mena M, de Vries S, De Jaeger G, Russinova E* (2019). POLAR-Guided Signaling Complex Assembly and Localization Drive Asymmetric Cell Division. Nature, 563(7732):574-578. DOI:10.1038/s41586-018-0714-x
11. Li T, Natran A, Chen Y, Vercruysse J, Wang K, Gonzalez N, Dubois M and Inze D* (2019). A genetics screen highlights emerging roles for CPL3, RST1 and URT1 in RNA metabolism and silencing, Nature Plants, 5:539-550. DOI:10.1038/s41477-019-0419-7
12. Wang K, Wang X, Shi T, Yang PF* (2017). Low genetic diversity and functional constraint of miRNA genes participating pollen–pistil interaction in rice, Plant Molecular Biology, DOI:10.1007/s11103-017-0638-0
13. Gao F#, Wang K#, Liu Y Chen YP, Chen P, Shi ZY, Luo J, Jiang DQ, Fan FF, Zhu YG, Li SQ* (2016). Blocking miR396 Increases Rice Yield by Shaping Inflorescence Architecture,Nature Plants, DOI:10.1038/nplants.2016.196
14. Wang K, Huang G, Zhu YX* (2016). Transposable elements play an important role during cotton genome evolution and fiber cell development. Sci China Life Sci, DOI:10.1007/s11427-015-4928-y
15. Li M#, Wang K#...Yang PF* (2016). Exploration of rice pistil responses during early post-pollination through a combined proteomic and transcriptomic analysis, Journal of Proteomics, DOI:10.1016/j.jprot.2015.11.004