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教學課程:

 

高等細胞生物學Advanced Cell Biology

 

書報討論Semina

 

細胞骨架之訊號傳遞及疾病The Cytoskeleton in Singnal Transduction and Diseases

 

細胞結構及移動的力學基礎Engineers meet Biologists: Cytoarchitecture, Cell crawling and Cell mechanics

 

生科研究導讀一Life Science Research Introduction

 

生命科學一：人與生命世界Life Science I - Humans and the Living World

 

生命科學二Life Science II

 

生物化學Biochemistry

 

人體生理與解剖學Human Anatomy & Physiology

 

細胞生物學Cell Biology

 

醫學科學實驗Medical Science Laboratory

 

模式生物學入門實驗Introductory Laboratory of Model Organisms

 

普通生物學實驗General Biology Lab Course

 

基礎生命科學實驗Basic Life Science Laboratory

  研究方向:

 

1.神經膠質纖維酸性蛋白質GFAP基因突變與逆境反應在亞歷山大氏症所扮演的角色

2.GFAP基因突變對於中間型蛋白絲的聚合及形成絲狀纖維能力的影響

3.粒腺體與肌間絲蛋白之交互作用在肌病變中所扮演的角色
4.探索抗纖維化的新機轉- 肝臟星狀細胞中間絲在肝硬化及慢性肝炎的角色

 

 

  最新著作:

 

Chen, Y. S., Lim, A. C., Chen, M. H., Quinlan, R. A. and Perng, M. D. (2011) Alexander disease causing mutations in the C-terminal domain of GFAP are deleterious both to assembly and network formation with the potential to both activate caspase 3 and decrease cell viability. Experimental Cell Research. 317(16): 2252-2266.

Saunter, C. D, Perng, M. D., Love, G. D., Quinlan and R. A. (2009) Stochastically determined directed movement explains the dominant small-scale mitochondrial movements within non-neuronal tissue culture cells. FEBS Lett. [Epub ahead of print]

Perng, M. D., Wen, S. F., Gibbon, T., Middledrop, J., Sluijs, J., Hol, E. M. and Quinlan, R. A. (2008) Glial fibrillary acidic protein filaments can tolerate the incorporation of assembly-compromised GFAP-delta, but with consequences for filament organization and alphaB-crystallin association. Mol Biol. Cell. 19: 4521-4533.

Perng, M. D., Zhang, Q. and Quinlan, R. A. (2007) Insights into the beaded filaments of the eye lens. Exp. Cell Res. 313: 2180-2188.

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