新生老鼠大腦神經分化之研究

Taipei Medical University Institutional Repository > 醫學院 > 醫學科學研究所 > 博碩士論文 > Item 987654321/5774

jsp.display-item.identifier=請使用永久網址來引用或連結此文件: http://libir.tmu.edu.tw/handle/987654321/5774

题名:	新生老鼠大腦神經分化之研究 Studies of Neuronal Cell Differentiation in Neonatal Rat Brain.
作者:	于位元 Yu, Wei-Yuan
贡献者:	細胞及分子生物研究所
关键词:	差異顯示法細胞週期神經細胞分化 alpha-tubulin蛋白 Differential Display Cell cycle alpha-tubulin Neuronal cell differentiation
日期:	1996
上传时间:	2009-09-11 15:42:33 (UTC+8)
摘要:	腦神經細胞在出生之後即停止生長並分化為各種突觸細胞，最近的研究顯示細胞的生長與細胞週期調控蛋白及細胞週期的進程有關，但腦部神經分化的分子機轉大部分仍不清楚。在此實驗，我們使用兩種研究模式: 初代培養神經細胞(於胚胎期第18天解剖)，屬In vitro模式；出生前後不同時期大腦皮質細胞取樣，屬於In vivo模式。在兩模式不同的時間點偵測細胞週期調控蛋白與α-tubulin (microtubule的組成物)的表現，來了解大白鼠出生後神經細胞生長的控制。除此以外，我們以一項新的技術- 差異顯示法，來顯示DIV 3 (培養皿培養3天) 與DIV 14兩者之間表現有差異的基因。只於DIV 3而非DIV 14天表現的有8個基因片段，只於DIV 14而非 DIV 3表現的基因則找到了7個。它們被選殖進入TA質體與pBS質體。以 PCR放大的基因片段做的引子，將用來驗證這些基因是否也會在In vivo模式中不同的時間點表現。我們在In vitro與In vivo兩者偵測Rb、cyclin D3、cdk4、p16與p21的表現，結果發現它們在這些時間點都沒有什麼顯著變化。細胞週期抑制蛋白: p16、p21與p27在初代培養與出生前後的神經細胞都只表現少量，可能是為了抑制神經細胞在胚胎期第18天之後的細胞週期進行。剛出生幾天的老鼠，其大腦蛋白-α-tubulin在SDS-PAGE上可看出表現為兩種形式。此較小分子量的形式在出生後開始出現到第16天消失，而在出生前或出生16天之後，只有高分子一種型式存在。在初代培養的細胞中，也只有高分子一種型式出現。由免疫沉澱法與Potato acid phosphatase的處理，可知此蛋白之酪氨酸未被磷酸化。為了試圖了解如何引發此現象的產生，我們將A23187、PMA、EGTA、KCl、NMDA、安非他命、NGF與CRH加入初代培養5天之神經細胞，但沒有一種能改變α-tubulin 的表現形式。此項結果顯示α-tubulin在出生後二週會以低分子量的形式存在，究竟此低分子量係去酪氨酸的α-tubulin或另一種變異型式，及引發此型態出現的原因和影響，均有待進一步的研究證實。 Studies of Neuronal Cell Differentiation in Neonatal Rat Brain Neuronal cells cease proliferating before postnatal stage. It is knownthat cell cycle regulatory proteins control the progression of cell cycle, but the molecular mechanisms involved in neuronal differentiation in brain remain unclear. In the presence study, we use primary cultured neuronal cells (in vitro model, dissected on embryonic day 18) and pre- and postnatal rat brain (in vivo model) to examine the expression of cell cycle regulatory proteins and a-tubulin, the component of microtubule. By the new technique " Differential Display ", we have identified the genes that express differently between DIV 3 (days in vitro) and DIV 14. Eight gene fragments were found expressing on DIV 3, but not DIV 14. Seven gene fragments were found expressing on DIV 14, but not DIV 3. They were cloned into TA vectors and pBS vectors. PCR amplified gene fragments will be use as probes to verify the mRNA expression of the genes on different days in prenatal and postnatal rat brain. We screened the expression of Rb, cyclin D3, cdk4, p16 and p21 both in vitro and in vivo. No significant expression of these proteins were found during these time points. Cell cycle inhibitory proteins, p16, p21 and p27 were found expressing at low level in both primary cultured cells and pre- and postnatal neuronal cells, presumably inhibiting the cell cycle progress of neuronsafter embryonic day 18. a-Tubulin, migrated as a doublet in SDS-PAGE at early postnatal rat brain. This low molecular weight form of a-tubulin was neither expressed in the primary culture cell system, nor were they expressed before birth or 16 days after birth in vivo. This protein was not tyrosine-phosphorylated demonstrated by immunoprecipitation and potato acid phosphatase treatment. To investigate the cause of these phenomenom, A23187, PMA, EGTA, KCl, NMDA, amphetamine, NGF and CRH were added to DIV 5 cultured neurons. None was found to change the expression form of a-tubulin. Further characterization of the genes found in differential display will help us understand the neuronal differentiation in neonatal rat brain.
数据类型:	thesis
显示于类别:	[醫學科學研究所] 博碩士論文

文件中的档案:

档案	大小	格式	浏览次数
摘要.doc	31Kb	Microsoft Word	121	检视/开启
摘要.pdf	70Kb	Adobe PDF	157	检视/开启
摘要.ppt	139Kb	Microsoft Powerpoint	191	检视/开启
摘要.ps	411Kb	Postscript	73	检视/开启

在TMUIR中所有的数据项都受到原著作权保护.

TAIR相关文章

数据加载中.....