相關閱讀資料
遺傳神經生物學
因舊版課程無指定課堂作業與考試,因此統整所有作業、講義、考試內容合併列出。
遺傳神經生物學
因舊版課程無指定課堂作業與考試,因此統整所有作業、講義、考試內容合併列出。
以下的閱讀資料提供了這個課程的基礎。點擊連結可以看到這些可得期刊文章的摘要 The readings listed below provide the foundation of this course. Click on the links to view abstracts for the journal articles, where available.
閱讀清單 Reading List
Adler, J.,〈細菌中的趨藥性〉,《科學》153, 737 (1966): 708-16. Adler, J. "Chemotaxis in bacteria." Science 153, 737 (1966): 708-16. Barco, A., J. M. Alarcon和E. R. Kandel,〈透過提升突觸俘獲,組成的活性CREB蛋白表達讓長期電位作用的後期變得容易〉,《細胞》108, 5 (2002): 689-703. Barco, A., J. M. Alarcon, and E. R. Kandel. "Expression of constitutively active CREB protein facilitates the late phase of long-term potentiation by enhancing synaptic capture." Cell 108, 5 (2002): 689-703. Bertrand, N., D. S. Castro和F. Guillemot,〈頸板基因和神經細胞類型詳述〉,《國家神經科學評論》3, 7 (2002): 517-30. Bertrand, N., D. S. Castro, and F. Guillemot. "Proneural genes and the specification of neural cell types." Nat Rev Neurosci 3, 7 (2002): 517-30. Blair, D. F.和H. C. Berg,〈缺陷鞭毛馬達中力矩的恢復〉,《科學》 242, 4886 (1988): 1678-81. Blair, D. F., and H. C. Berg. "Restoration of torque in defective flagellar motors." Science 242, 4886 (1988): 1678-81. D'Arcangelo, G.等,〈在突變鼠種reeler中刪除一個與與細胞外矩陣相關的蛋白質〉,《自然》374, 6524 (1995): 719-23 D'Arcangelo, G., et al. "A protein related to extracellular matrix proteins deleted in the mouse mutant reeler." Nature 374, 6524 (1995): 719-23. Goffinet, A. M.,〈神經發育生物學。reeler的一個真基因〉,《自然》374, 6524 (1995): 675-6. Goffinet, A. M. "Developmental neurobiology. A real gene for reeler." Nature 374, 6524 (1995): 675-6. Guthrie, S.,〈軸突導引︰Robos扮演決定角色〉,Curr Biol當代生物學 11, 8 (2001): R300-3. Guthrie, S. "Axon guidance: Robos make the rules." Curr Biol 11, 8 (2001): R300-3. Hazelbauer, G. L., H. C. Berg和P. Matsumura,〈細菌移動性和信號轉換〉,《細胞》73, 1 (1993): 15-22. Hazelbauer, G. L., H. C. Berg, and P. Matsumura. "Bacterial motility and signal transduction." Cell 73, 1 (1993): 15-22. Jarman, A. P.等,〈非弦音是一個頸板基因,它指引果蠅外圍神經系統中弦音感受器官的形成〉,《細胞》73,7 (1993): 1307-21. Jarman, A. P., et al. "Atonal is a proneural gene that directs chordotonal organ formation in the Drosophila peripheral nervous system." Cell 73, 7 (1993): 1307-21. Kidd, T., K. S. Bland和C. S. Goodman,〈狹裂是果蠅體內robo接受器的中線排斥〉,《細胞》96, 6 (1999): 785-94 Kidd, T., K. S. Bland, and C. S. Goodman. "Slit is the midline repellent for the robo receptor in Drosophila." Cell 96, 6 (1999): 785-94. Konopka, R. J.和S. Benzer,〈黑腹果蠅的時段突變〉,Proc Natl Acad Sci U S A 美國國家學術科學會議68, 9 (1971): 2112-6. Konopka, R. J., and S. Benzer. "Clock mutants of Drosophila melanogaster." Proc Natl Acad Sci U S A 68, 9 (1971): 2112-6. Macnab, R. M.和D. E. Koshland Jr.,〈細菌趨藥性中的梯度感應機制〉,Proc Natl Acad Sci U S A 美國國家學術科學會議69, 9 (1972): 2509-12. Macnab, R. M., and D. E. Koshland Jr. "The gradient-sensing mechanism in bacterial chemotaxis." Proc Natl Acad Sci U S A 69, 9 (1972): 2509-12. Meister, M., G. Lowe和H. C. Berg,〈透過細菌鞭毛馬達的質子通量〉,《細胞》49, 5 (1987): 643-50. Meister, M., G. Lowe, and H. C. Berg. "The proton flux through the bacterial flagellar motor." Cell 49, 5 (1987): 643-50. Nakazawa, K.等,〈在聯合記憶回憶中,海馬趾CA3 NMDA接受器的要求〉,《科學》297, 5579 (2002): 211-8. Nakazawa, K., et al. "Requirement for hippocampal CA3 NMDA receptors in associative memory recall." Science 297, 5579 (2002): 211-8. Nitabach, M. N., J. Blau和T. C. Holmes,〈果蠅起搏神經元的電流抑制停止自由行走的生物鐘〉,《細胞》109, 4 (2002): 485-95. Nitabach, M. N., J. Blau, and T. C. Holmes. "Electrical silencing of Drosophila pacemaker neurons stops the free- running circadian clock." Cell 109, 4 (2002): 485-95. Oosawa, K., J. F. Hess和M. I. Simon,〈細菌具趨藥性缺陷的突變種表現出不同的蛋白磷酸化〉,《細胞》53, 1 (1988): 89-96. Oosawa, K., J. F. Hess, and M. I. Simon. "Mutants defective in bacterial chemotaxis show modified protein phosphorylation." Cell 53, 1 (1988): 89-96. Panda, S., J. B. Hogenesch和S. A. Kay,〈從蒼蠅到人類的晝夜節律〉,《自然》417, 6886 (2002): 329-35. Panda, S., J. B. Hogenesch, and S. A. Kay. "Circadian rhythms from flies to human." Nature 417, 6886 (2002): 329-35. Salzberg, A.等,〈果蠅體內影響PNS模式的突變揭示神經元發展的新方面〉,《神經元》13, 2 (1994): 269-87 Salzberg, A., et al. "Mutations affecting the pattern of the PNS in Drosophila reveal novel aspects of neuronal development." Neuron 13, 2 (1994): 269-87. Simpson, J. H.等,〈狹裂和其Robo接受器的長距和短距指引︰Robo接受器控制側位的組合碼〉,《細胞》103, 7 (2000): 1019-32. Simpson, J. H., et al. "Short-range and long-range guidance by Slit and its Robo receptors: a combinatorial code of Robo receptors controls lateral position." Cell 103, 7 (2000): 1019-32. Stefansson, H.等,〈Neuregulin 1基因和易感性到精神分裂〉,Am J Hum Genet 71, 4 (2002): 877-92. Stefansson, H., et al. "Neuregulin 1 and susceptibility to schizophrenia." Am J Hum Genet 71, 4 (2002): 877-92. Tessier-Lavigne, M.和C. S. Goodman,〈軸突指引分子生物學〉,《科學》274, 5290 (1996): 1123-33. Tessier-Lavigne, M., and C. S. Goodman. "The molecular biology of axon guidance." Science 274, 5290 (1996): 1123-33. Tobin, A. J.和E. R. Signer,〈亨丁頓舞蹈症︰細胞生物學家的挑戰〉,《細胞生物學趨勢》10, 12 (2000): 531-6 Tobin, A. J., and E. R. Signer. "Huntington's disease: the challenge for cell biologists." Trends Cell Biol 10, 12 (2000): 531-6. Yamamoto, A., J. J. Lucas和R. Hen,〈亨丁頓舞蹈症的條件模型中神經病理學和馬達功能紊亂的逆轉〉,《細胞》101, 1 (2000): 57-66. Yamamoto, A., J. J. Lucas, and R. Hen. "Reversal of neuropathology and motor dysfunction in a conditional model of Huntington's disease." Cell 101, 1 (2000): 57-66. |