林盈仲 助理教授

E-mail: YCJimmyLin@ntu.edu.tw
電話: (02) 3366-2509 
專長: 植物分子生物學
學歷: 博士 美國北卡州立大學2014
          碩士 國立臺灣大學 2008
          學士 國立清華大學 2006

研究室: 生命科學館1136室

近年研究主題

(1) 次級細胞壁生長中的轉錄調節
(2) 木質部發育, 木材生成 
(3) 生物能源

研究室簡介

木材是紙漿製造、建材、生質能源最重要的原料。木材形成是一個複雜的發育過程,其中包含有次級木質部細胞從維管束形成層分化、以及次級細胞壁增厚。多細胞生物的生長和發育過程是經由多層級調控因子所調控,研究木材發育的多層級調控將可獲得更準確的知識進而對木材的特性改造。透過使用毛果楊木質部的原生質體,我們將研究木材形成和次級細胞壁增厚的遺傳調控網絡。
在開花木本植物中,木質部由三種細胞組:纖維細胞,導管細胞,放射細胞。這三種細胞是從維管束形成層分化而成,並且有不同的功能。纖維細胞提供支撐,導管細胞運輸水分,放射細胞儲存營養。在這三種細胞中,纖維細胞和導管細胞為主要多數,特別是纖維細胞佔木質部總細胞的60-80%。我們將會只用雷射顯微切割技術進行細胞的分離及蒐集,進而研究木質部發育的機制。
木材是世界上含量最多的生物量的物質並且可以再生,透過木材形成酒精將可提供可觀的生物能源,所以透過了解木材形成,木質部發育,我們將可以更準確的改良木材特性以提供生物能源製造效率和產量。

代表著作 

  1. Chung-Shu Yeh, Zhifeng Wang, Fang Miao, Hongyan Ma, Chung-Ting Kao, Tzu-Shu Hsu, Jhong-He Yu, Er-Tsi Hung, Chia-Chang Lin, Chen-Yu Kuan, Ni-Chiao Tsai, Chenguang Zhou, Guan-Zheng Qu, Jing Jiang, Guifeng Liu, Jack P Wang, Wei Li, Vincent L Chiang, Tien-Hsien Chang and Ying-Chung Lin*. (2019) A novel synthetic-genetic-array based yeast one-hybrid system for high discovery rate and short processing time. Genome Research. doi: https://doi.org/10.1101/gr.245951.118 (5-yr IF: 11.638; R/C:3.8% in GENOME RESEARCH).

  2. Li S.*, Lin Y.C.J.*, Wang P., Zhang B., Li M., Chen S., Shi R., Tunlaya-Anukit S., Liu X., Wang Z., Dai X., Yu J., Zhou C., Liu B., Wang J.P., Chiang V.L., Li W. (2018) Histone Acetylation Cooperating with AREB1 Transcription Factor Regulates Drought Response and Tolerance in Populus trichocarpa. The Plant Cell DOI: https://doi.org/10.1105/tpc.18.00437. (* Co-first author) (IF=9.378; R/C=6/223, PLANT SCIENCES).

  3. Yan X., Liu J., Kim H., Liu B., Huang X., Yang Z., Lin Y.C.J., Chen H., Yang C., Wang JP., Muddiman D.C., Ralph J., Sederoff R.R., Li Q., Chiang V.L. (2018) CAD1 and CCR2 protein complex formation in monolignol biosynthesis in Populus trichocarpa. New Phytologist doi: 10.1111/nph.15505 (IF=7.433; R/C=7/223, PLANT SCIENCES)

  4. Wang J.P., Matthews M.L., Williams C.M., Shi R., Yang C., Tunlaya-Anukit S., Chen H.C., Li Q., Liu J., Lin C.Y., Naik P., Sun Y.H., Loziuk P.L., Yeh T.F., Kim H., Gjersing E., Shollenberger T., Shuford C.M., Song J., Miller Z., Huang Y.Y., Edmunds C.W., Liu B., Sun Y., Lin Y.C.J., Li W., Chen H., Peszlen I., Ducoste J.J., Ralph J., Chang H.M., Muddiman D.C., Davis M.F., Smith C., Isik F., Sederoff R., Chiang V.L. (2018) Improving wood properties for wood utilization through multi-omics integration in lignin biosynthesis. Nature Communications 9, 1579 (IF=12.1; R/C=3/64, MULTIDISCIPLINARY SCIENCES).

  5. Lin Y.C.J.*, Chen H.*, Li Q.*, Shi R., Tunlaya-Anukit S., Shuai P., Li W., Li H., Sun Y.H., Sederoff R.R., Chiang V.L. (2017). Reciprocal cross-regulation of VND and SND multi-gene TF families in wood formation in Populus trichocarpa. PNAS 114(45):E9722-E9729 (* Co-first author) (IF=9.7; R/C=4/64, MULTIDISCIPLINARY SCIENCES).

  6. Shi R., Wang J.P., Lin Y.C., Li Q., Sun Y.H., Chen H., Sederoff R.R., Chiang V.L. (2017). Tissue and cell-type co-expression networks of transcription factors and wood component genes in Populus trichocarpa. Planta 245, 927–938 (IF=3.2; R/C=28/197, PLANT SCIENCES).

  7. Wang P.J.*, Chuang L.*, Loziukc P.L., Chen H., Lin Y.C., Shi R., Qu G.Z., Muddiman D.C., Sederoff R.R., Chiang V.L. (2015). Phosphorylation is an on/off switch for 5-hydroxyconiferaldehyde O-methyltransferase activity in poplar monolignol biosynthesis. PNAS, 112, 8481–8486. (* Co-first author). (IF=9.4; R/C=4/57, MULTIDISCIPLINARY SCIENCES).

  8. Lin, Y.C., Li, W., Li, Q., Chen, H., Sederoff, R.R., and Chiang, V.L. (2014). A simple improved-throughput xylem protoplast system for studying wood formation. Nature Protocols, 9, 2194-2205. (IF= 9.6; R/C=2/79, BIOCHEMICAL RESEARCH METHODS).

  9. Li, W., Lin, Y.C., Li, Q.Z., Chen, H., Sederoff, R.R., and Chiang, V.L. (2014). A robust chromatin immunoprecipitation protocol for studying transcription factor–DNA interactions and histone modifications in wood-forming tissue. Nature Protocols, 9, 2180-2193. (IF= 9.6; R/C=2/79, BIOCHEMICAL RESEARCH METHODS).

  10. Chen, H.-C.*, Song, J.*, Wang, P.J.*, Lin, Y.C., Ducoste, J., Shuford, M.C., Liu, J., Li Q., Shi, R., Nepomuceno, A., Isil, F., Muddiman, C.D., Williams, C., Sederoff, R.R., and Chiang, V.L. (2014). Systems Biology of Lignin Biosynthesis in Populus trichocarpa: Heteromeric 4-Coumaric acid: CoA Ligase (4CL) Protein Complex Formation, Regulation and Numerical Modeling. The Plant Cell. 26, 876-893. (* Co-first author) (IF=9.3; R/C=4/204, PLANT SCIENCES).

  11. Lin, Y.C.*, Li, W.*, Sun, Y.H., Kumari, S., Wei, H.R., Li, Q.Z., Tunlaya-Anukit, S., Sederoff, R.R., and Chiang, V.L. (2013). SND1 transcription factor-directed quantitative functional hierarchical genetic regulatory network in wood formation in Populus trichocarpa. The Plant Cell 25, 4324-4341. (* Co-first author). (IF=9.6; R/C=4/204, PLANT SCIENCES).

  12. Li Q.*, Lin Y.C.*, Sun Y. H., Song J., Chen H., Zhang X. H., Sederoff R. R., and Chiang V. L. (2012). Splice variant of the SND1 transcription factor is a dominant negative of SND1 members and their regulation in Populus trichocarpa. PNAS 109, 14699-14704. (* Co-first author) (IF=9.7; R/C=4/57, MULTIDISCIPLINARY SCIENCES).

  13. Wang J.P., Shuford C.M., Li Q., Song J., Lin Y.C., Sun Y.H., Chen H.C., Williams C.M., Muddiman D.C., Sederoff R.R., Chiang V.L. (2012). Functional redundancy of the two 5-hydroxylases in monolignol biosynthesis of Populus trichocarpa: LC-MS/MS based protein quantification and metabolic flux analysis. Planta 236(3):795-808. (IF=3.3; R/C=28/197, PLANT SCIENCES).

開設課程

  • 普通生物學

  • 植物生理學

  • 原生質體轉化系統

2017 Celebration for moon festival

國立臺灣大學植物科學研究所 National Taiwan University Institute of Plant Biology

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