研究方向

植物（林木）基因组学、功能基因组学、生物信息学。利用下一代高通量测序等尖端技术，结合生物信息学方法和基因组学信息库，研究植物（林木）的生长发育和应激抗逆的分子和生理机制。

My   expertise lies in plant genomics, with a specific emphasis on forestry and   functional genomics. We utilise cutting-edge technologies such as   next-generation high-throughput sequencing, combined with bioinformatics   methods and genomics repository, to investigate the molecular and   physiological mechanisms underlying plant growth and stress responses.

工作和学习经历

工作经历

2021.10   - 今         浙江农林大学            教授

2018.10   - 2021.09 浙江农林大学            副教授

2017.09   - 2018.12 芬兰赫尔辛基大学          客座研究员

2009.05   - 2017.08 芬兰赫尔辛基大学          研究员

2005.09   - 2009.03 芬兰图尔库生物技术中心     研究员

学习经历

2011.03   - 2017.12 芬兰赫尔辛基大学          博士

2002.05   - 2006.08 马来西亚博特拉大学      硕士

1998.05   - 2001.04 马来西亚博特拉大学      学士

教学与课程

教学工作

本科生课程:   林木育种学B，Breeding   of Forest Trees B （中加林学，全英文授课）

硕士生课程:   基因组学   Genomics（全英文授课）

博士生课程:   林木分子遗传学专题

科研项目

2023-2026 杉木次生木质部发育的遗传结构及调控机制解析,   国家自然科学基金面上项目,   32271919，参与

2021-2023 特色经济林木种质资源数字化利用技术构建,   浙江省重点研发计划，2021C02054，核心人员

2021          树木遗传学，基因组学和育种，浙江省自然科学基金学术交流项目，LS21C160001，主持

2013-2015        High throughput genetic and chemical analysis of   birch wood towards new biorefinery products (GENOCHEM)，芬兰科学院，核心人员

2008-2010 Functional   Genomics of Wood Formation II，芬兰国家技术创新局 (TEKES) 及   Finnish Forest Cluster 赫尔辛基大学及芬兰森林研究所，核心人员

代表性论文

1.    Paasela   T^#, Lim K-J^#, Pavicic M, Harju A, Venäläinen M,   Paulin L, Auvinen P, Kärkkäinen K, Teeri TH (2023) Transcriptomic Analysis   Reveals Novel Regulators of the Scots Pine Stilbene Pathway. Plant And Cell   Physiology. DOI: https://doi.org/10.1093/pcp/pcad089 #   共同第一作者   Equal first author

2.    Zhang   X, Du M, Yang Z, Wang Z*, Lim K-J* (2023) Biogenesis, Mode of Action   and the Interactions of Plant Non-Coding RNAs. International Journal of   Molecular Sciences 24, 10664. DOI: https://doi.org/10.3390/ijms241310664 *   共同通讯作者   Co-corresponding authors

3.    Shi   M, Qin T, Cheng Z, Zheng D, Pu Z, Yang Z, Lim K-J, Yang M, Wang Z.   (2023). Exploring the Core Bacteria and Functional Traits in Pecan (Carya   illinoinensis) Rhizosphere. Microbiology Spectrum 0, e00110-23. DOI: https://doi.org/10.1128/spectrum.00110-23

4.    Xie   Y, Hou Z, Shi M, Wang Q, Yang Z, Lim K-J*, Wang Z* (2023)   Transcriptional Regulation of Female and Male Flower Bud Initiation and   Development in Pecan (Carya illinoensis) Plants 12. DOI: https://doi.org/10.3390/plants12061378 *   共同通讯作者   Co-corresponding authors

5.    Yang   Z, Qin T, Jin H, Wang J, Li C, Lim K-J, Wang Z (2023) Quantitative   Phosphoproteomic Analysis Reveals Potential Regulatory Mechanisms of Early   Fruit Enlargement in Pecan (Carya illinoinensis). Journal of Agricultural and   Food Chemistry 71: 4901–4914. DOI: https://doi.org/10.1021/acs.jafc.2c08876

6.    Jin   H, Yang Z, Luo J, Li C, Chen J, Lim K-J*, Wang Z* (2023).   Comprehensive identification and analysis of circRNAs during hickory (Carya   cathayensis Sarg.) flower bud differentiation. Frontiers in Plant Science 13.   DOI: https://doi.org/10.3389/fpls.2022.1000489 *   共同通讯作者   Co-corresponding authors

7.    Guo   W, Jin H, Chen J, Huang J, Zheng D, Cheng Z, Liu X, Yang Z, Chen F, Lim   K-J*, Wang Z* (2022) GROP: A genomic information repository for oil   plants. Frontiers in Plant Science 13: 1–10. DOI: https://doi.org/10.3389/fpls.2022.1023938 * 共同通讯作者   Co-corresponding authors

8.    Li C,   Jin H, Zhang W, Qin T, Zhang X, Pu Z, Yang Z, Lim K-J*, Wang Z* (2022)   Whole-Transcriptome Analysis Reveals Long Noncoding RNAs Involved in Female   Floral Development of Hickory (Carya cathayensis Sarg.). Frontiers in   Genetics  13:910488 DOI: https://doi.org/10.3389/fgene.2022.910488 * 共同通讯作者   Co-corresponding authors

9.    Luo   J, Chen J, Guo W, Yang Z, Lim K-J*, Wang Z*. (2021). Reassessment of   Annamocarya sinesis (Carya sinensis) Taxonomy through Concatenation and   Coalescence Phylogenetic Analysis. Plants, 11(1), 52. DOI: https://doi.org/10.3390/plants11010052 * 共同通讯作者   Co-corresponding authors

10. Lim K-J,   Paasela T, Harju A, Venäläinen M, Paulin L, Auvinen P, Kärkkäinen K, Teeri TH   (2021) A transcriptomic view to wounding response in young Scots pine stems.   Scientific Reports 11: 3778. DOI: https://doi.org/10.1038/s41598-021-82848-3

11. Guo W, Chen J,   Li J, Huang J, Wang Z*, Lim K-J* (2020) Portal of Juglandaceae: A   comprehensive platform for Juglandaceae study. Horticulture Research 7: 35.   DOI: https://doi.org/10.1038/s41438-020-0256-x *   共同通讯作者   Co-corresponding authors

12. Alonso-Serra J^#,   Safronov O^#, Lim K-J^#, Fraser-Miller SJ,   Blokhina OB, Campilho A, Chong SL, Fagerstedt K, Haavikko R, Helariutta Y, et   al (2019) Tissue-specific study across the stem reveals the chemistry and   transcriptome dynamics of birch bark. New Phytologist 222: 1816–1831. DOI: https://doi.org/10.1111/nph.15725 #   共同第一作者   Equal first author

13. Salojärvi J,   Smolander OP, Nieminen K, Rajaraman S, including Lim K-J and 80 others   (2017) Genome sequencing and population genomic analyses provide insights   into the adaptive landscape of silver birch. Nature Genetics 49: 904–912.   DOI: https://doi.org/10.1038/ng.3862    

14. Paasela T, Lim   K-J, Pietiäinen M, Teeri TH (2017) The O -methyltransferase PMT2 mediates   methylation of pinosylvin in Scots pine. New Phytologist 214: 1537–1550. DOI:   https://doi.org/10.1111/nph.14480

15. Lim K-J,   Paasela T, Harju A, Venäläinen M, Paulin L, Auvinen P, Kärkkäinen K, Teeri TH   (2016) Developmental Changes in Scots Pine Transcriptome during Heartwood   Formation. Plant Physiology 172: 1403–1417. DOI: https://doi.org/10.1104/pp.16.01082

奖励荣誉

出版著作

授权专利

联系方式

通讯地址 Mailing   address: 浙江省杭州市临安区武肃街666号浙江农林大学国家重点实验室

邮编311300

666   Wusu Road, Lin'an District, Hangzhou, Zhejiang, 311300, China

电子邮箱   Email: keanjin.lim@zafu.edu.cn