張英峯 副教授

E-mail: ifchang@ntu.edu.tw
電話: (02) 33662534
專長: 植物蛋白質體學、植物生物化學、分子生物學
學歷: 美國加州大學河濱分校博士

研究室: 生命科學館R905

近年研究主題

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鹽分逆境下之植物反應及蛋白質磷酸化之變化
植物如何調控根生長發育

研究室簡介

  • 植物在鹽分逆境下,為求生存,會調控轉錄因子(transcription factor)、轉譯因子、膜蛋白質受體(membrane receptor)等重要基因之表現。鹽分逆境下尤其植物細胞的膜上一些膜蛋白質(如鈣離子通道)活性會受不同程度的磷酸化調控,蛋白質磷酸化在訊號傳遞上扮演重要之角色,通常經由專一性激酶催化。本實驗室利用阿拉伯芥為模式生物,利用生化遺傳分析方法鑽研特定蛋白質磷酸化在鹽分逆境及生長發育之調控機制及功能。此外,植物根部生長發育受內部代謝物或荷爾蒙及外部環境因子影響,本實驗室透過篩選根部生長發育缺陷之突變株,試圖找出造成表型不同的機制,並探究這些基因在鹽分逆境下如何影響植物生理。

張英峯網頁_edited.jpg

圖中顯示在鹽分逆境下阿拉伯芥麩氨酸受體3.7之突變株glr3.7-2之細胞質鈣離子濃度較低

代表著作

A. 期刊論文

  1. Lin WC, Chen YH, Gu SY, Shen HL, Huang KC, Lin WD, Chang MC, Chang IF, Hong CY, Cheng WH.* 2021. CFM6 is an essential CRM protein required for the splicing of nad5 transcript in Arabidopsis mitochondria. Plant Cell Physiol.

  2. Chen PY, Hsu CY, Lee CE, Chang I.F.* 2021. Arabidopsis glutamate receptor GLR3.7 is involved in abscisic acid response. Plant Signal Behav.

  3. Wang, P.H., Lee, C.E., Lin, Y.S., Lee, M.H., Chen, P.Y., Chang, H.C., Chang, I.F.* 2019. The Glutamate Receptor-Like Protein GLR3.7 Interacts With 14-3-3ω and Participates in Salt Stress Response in Arabidopsis thaliana. Frontiers in Plant Science 10:1169

  4. Chang, H.C., Tsai, M.C., Wu, S.S., Chang, I.F.* 2019. Regulation of ABI5 expression by ABF3 during salt stress responses in Arabidopsis thaliana. Botanical Studies 60:16.

  5. Shih, Y.J., Chang, H.C., Tsai, M.C., Wu, T.Y., Wu, T.C., Ping Kao, P., Wen-Yuan Kao, W.Y., Chang, I.F. * 2018. Comparative leaf proteomic profiling of salt-treated natural variants of Imperata cylindrica. Taiwania 63: 171-182.

  6. Singh, S.K., Chien, C.T., Chang, I,.F.* 2016. The Arabidopsis glutamate receptor-like gene GLR3.6 controls root development by repressing the Kip-related protein gene KRP4. Journal of Experimental Botany 67(6):1853-69. (SCI)

  7. Wu, T.Y.,Kao, P., Chang, C.L., Hsu, P.H., Chou, C.H., Chang, I,.F.* 2015. Phosphoproteomic profiling of microsomal fractions in leaves of Cogon grass (Imperata cylindrica). Plant OMICS(SCI)

  8. Lee, T.C., Xiong, W., Paddock, T., Carrieri, D., Chang, I.F., Chiu, H.F., Ungerer, J., Juo, S.H., Maness, P.C., Yu, J. 2015. Engineered xylose utilization enhances bio-products productivity in the cyanobacterium Synechocystis sp. PCC 6803. Metabolic Engineering 30: 179-189. (SCI)

  9. Chen, Y.T., Shen, C.H., Lin, W.D., Chu, H.A., Huang, B.L., Kuo, C.I., Yeh, K.W., Huang, L.C., Chang, I.F. 2013. Small RNAs of Sequoia sempervirens during rejuvenation and phase change. Plant Biology 15: 27-36. (SCI)

  10. Huang, S.J., Chang, C.L., Wang, P.H., Tsai, M.C., Hsu, P.H., Chang, I.F.* 2013. A type III ACC synthase, ACS7, is involved in root gravitropism in Arabidopsis thaliana. Journal of Experimental Botany 64: 4343-4360. (SCI)

  11. Chen, Y.T., Shen, C.H., Lin, W.D., Chu, H.A., Huang, B.L., Kuo, C.I., Yeh, K.W., Huang, L.C., Chang, I.F. 2013. Small RNAs of Sequoia sempervirens during rejuvenation and phase change. Plant Biology 15: 27-36. (SCI)

  12. Chu, H.A., Chang, I.F., Shen, C.H., Chen, Y.T., Wang, H.T., Huang, L.C., Yeh, K.W. 2012. Photosynthetic properties and photosystem stoichiometry of in vitro-grown juvenile, adult, and rejuvenated Sequoia sempervirens (D. Don) Endl. Botanical Studies53: 223-227. (SCI)

  13. Chang, I.F.*, Hsu, J.L., Hsu, P.H., Sheng, W.A., Lai, S.J., Lee, C., Chen, C.W., Hsu, J.C., Wang, S.Y., Wang, L.Y., Chen, C.C. 2012. Comparative phosphoproteomic analysis of microsomal fractions of Arabidopsis thaliana and Oryza sativa subjected to high salinity. Plant Science 185-186: 131-142. (SCI)

  14. Curran, A.+, Chang, I.F.+, Chang, C.L. Garg, S., Garg, S., Miguel, R.M., Barron, Y.D., Li, Y., Romanowsky, S., Cushman, J.C., Gribskov, M., Harmon, A.C., Harper, J.F.* 2011. Calcium-dependent protein kinases from Arabidopsis show substrate specificity differences in an analysis of 103 substrates. Frunt Plant Science 2:36 (+: equal contributions) (SCI)

  15. Chang, I. F., Chen, P. J., Shen, C. H., Hsieh, T. J., Hsu, Y. W., Huang, B. L., Kuo, C. I., Chen, Y. T., Chu, H. A., Yeh, K. W., Huang, L. C.* 2010. Proteomic profiling of proteins associated with the rejuvenation of Sequoia sempervirens (D. Don) Endl. Proteome Science 8: 64. (SCI)

  16. Hsu, J. L., Wang, L. Y., Wang, S. Y., Lin, C. H., Ho, K. C., Shi, F. K. and Chang, I. F.* 2009. Functional phosphoproteomic profiling of phosphorylation sites in membrane fractions of salt-stressed Arabidopsis thaliana. Proteome Science 7: 42. (SCI)

  17. Chang,I. F.+*, Curran A.+, Woolsey R., Quilici D., Cushman J., Mittler R., Harmon A., Harper J. F.* 2009. Proteomic profiling of tandem affinity purified 14-3-3 protein complexes in Arabidopsis thaliana. Proteomics 9: 2697-2985. (+: equal contributions) (SCI)

  18. Hsu, Y. W., Sihgh, S. K., Chiang, M. Y., Wu, Y. Y., Chang, I. F. 2009.Strategies to lower greenhouse gas level by rice agriculture. African Journal of Biotechnology 8: 126-132.

  19. Chang, I. F. 2008. Ecotypic variation of a medicinal plant Imperata cylindrica populations in Taiwan: mass spectrometry-based proteomic evidence. Journal of Medicinal Plants Research 2: 71-76.

  20. Hsiao, H. Y., Chang, I. F. 2008. Proteomic profiling of rat brain discharged by ultrasound associated with high frequency electro-magnetic field. Proteomics Research Journal 1: 41-53.

  21. Chang, I. -F. 2006. Mass-spectrometry based proteomic analysis of the epitope-tag affinity purified protein complex in eukaryotes.  Proteomics  6: 6158-6166 (Review). (SCI)

  22. Chang, I. -F. and Chou, C. H. 2006. Ecotypic variation of Imperata cylindrica populations in Taiwan: II. Physiological and biochemical evidences.  Botanical Studies  47: 175-184. (SCI)

  23. Rodriguez Milla, M. A., Uno, Y., Chang, I. –F., Townsend, J., Maher, E. A., Quilici, D. and Cushman J. C. 2006. Arabidopsis AtCPK11, a calcium-dependent protein kinase, phosphorylates AtDi19, a nuclear zinc finger protein.  FEBS Letters  580: 904-911. (SCI)

  24. Rodriguez Milla, M. A., Townsend, J.,  Chang, I. –F.  and Cushman, J. C. 2006. Arabidopsis Di19-Related Genes Encode a Novel Family of Proteins With Two Unusual Cys2/His2 Zinc-Finger Motifs Evolutionary Conserved Involved in ABA-Independent Stress-Signaling Pathways.  Plant Molecular Biology  61: 13-30. (SCI)

  25. Chang, I. –F. , Hsiao, H. Y. 2005. Induction of RhoGAP and pathological changes characteristic of Alzheimer’s disease by UAHFEMF discharge in rat brain. Current Alzheimer Research  2:559-569. (SCI)

  26. Zanetti, M. E., Chang, I. -F., Galbraith, D. W., Bailey-Serres, J. 2005. Immunopurification of polyribosomal complexes of Arabidopsis for global analysis of gene expression.  Plant Physiology  138: 624-635. (SCI)

  27. Chang, I. -F.*, Szick-Miranda*, K., Pan, S., Bailey-Serres, J. 2005. (*: equal contributions) Proteomic Characterization of Evolutionarily Conserved and Variable Proteins of Arabidopsis Cytosolic Ribosomes.  Plant Physiology  137: 848-862. (SCI)

  28. Yang, C. M., Wang, M. C., Lu, Y. F., Chang, I. -F., Chou, C. H. 2004. Humic substances affect the activity of chlorophyllase.  Journal of Chemical Ecology  30: 1057-1065. (SCI)

  29. Yang, C. M., Chou, C. H.,  Chang, I. -F. and Lin, S. J. 2004. Effects of three allelopathic phenolics on chlorophyll accumulation of rice ( Oryza sativa ) seedlings: II Stimulation of consumption-orientation.  Bot. Bull. Acad. Sin.  45: 119-125. ( SCI )

  30. Williams, A.*, Werner-Fraczek. J.*,  Chang, I.-F.,* Bailey-Serres, J. (*: equal contributions) 2003. Regulated phosphorylation of 40S ribosomal S6 in root tips of maize. Plant Physiology  132: 2086-2097. (SCI)

  31. Barakat, A., Szick-Miranda, K.,  Chang, I. -F., Guyot, R., Blanc, G., Cooke, R., Delseny, M., Bailey-Serres, J. 2001. The organization of cytoplasmic ribosomal protein genes in the Arabidopsis genome.  Plant Physiology  127: 398-415. (SCI) .

B. 著作

Kao, P., Wu, T. Y., Chang, C. L., Chou, C. H., Chang, I. F. 2011. Decreasing of Population Size of Imperata cylindrica Mangrove Ecotype & Sea-Level Rising, Global Warming Impacts - Case Studies on the Economy, Human Health, and on Urban and Natural Environments, Stefano Casalegno (Ed.), ISBN: 978-953-307-785-7, InTech.

開設課程

  • 普通生物學

  • 蛋白質體學

  • 植物生理學

  • 生物技術核心實驗

  • 進階植物分子生物學