人類RNA聚合酶I在D型肝炎病毒反基因股RNA合成中扮演之角色

黃筠捷; Yun-Chieh Huang

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/79064

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	張明富	zh_TW
dc.contributor.author	黃筠捷	zh_TW
dc.contributor.author	Yun-Chieh Huang	en
dc.date.accessioned	2021-07-11T15:40:59Z	-
dc.date.available	2024-02-28	-
dc.date.copyright	2018-10-09	-
dc.date.issued	2018	-
dc.date.submitted	2002-01-01	-
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dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/79064	-
dc.description.abstract	D型肝炎病毒 (hepatitis delta virus；HDV)為目前已知可感染人類的最小RNA病毒，且病毒RNA約有70%之分子內互補以形成類桿狀的雙股結構特性。由於本身不具備病毒複製所需的RNA-dependent RNA聚合酶 (RdRp)，因此D型肝炎病毒被認為具有改變宿主DNA-dependent RNA聚合酶功能以完成病毒RNA複製的能力。研究普遍認為宿主RNA聚合酶II會參與病毒RNA合成，包含由病毒反基因股RNA合成基因股RNA以及由病毒基因股RNA合成mRNA此二階段。然而，由病毒基因股RNA合成反基因股RNA的階段究竟為何種宿主RNA聚合酶參與，仍存有爭議。本實驗室先前的研究結果暗示宿主RNAP I可能在D型肝炎病毒生命週期扮演某種角色。而本研究主要探討宿主RNAP I是否參與在病毒生命週期中的病毒反基因股RNA之複製階段，又其扮演的角色為何。本研究利用轉染系統讓病毒RNA在細胞內進行複製，發現對病毒RNA複製重要的小型delta抗原以及病毒基因股RNA皆能與宿主RNAP I的最大次單元RPA194產生交互作用。進一步以較貼近真實情況的病毒感染系統進行探討，發現在宿主RPA194表現量降低的環境，細胞內的病毒反基因股RNA合成明顯降低。本研究結果顯示宿主RNAP I可能在病毒反基因股RNA合成中扮演重要角色。另外，以不同應用軟體分析在病毒基因股RNA上是否有類似於宿主rRNA合成之調控區域，結果發現HDV基因股RNA含有類似於CTCF之cis-element (nt 317~321)。進一步突變此區域，發現突變型病毒RNA會讓細胞內病毒反基因股和基因股RNA的合成量明顯下降，顯示此區域在病毒RNA複製可能具有重要意義。然而，宿主RNAP I與突變型1 (MT1)病毒基因股RNA的結合能力不降反升，而宿主RNAP I與突變型2 (MT2)病毒基因股RNA的結合情形不受影響。CTCF之cis-element及宿主RNAP I如何參與病毒反基因股RNA複製，仍需進一步探討。	zh_TW
dc.description.abstract	Hepatitis delta virus (HDV), the smallest RNA virus known to infect human, has a rod-like structure RNA genome due to up to 70% intramolecular base-pairing. Because HDV doesn’t encode its own RNA-dependent RNA polymerase (RdRp), HDV is believed to redirect host DNA-dependent RNA polymerase to participate in HDV RNA synthesis. During HDV RNA synthesis, host RNA polymerase II synthesizes the viral genomic RNA and mRNA from antigenomic RNA and genomic RNA, respectively. However, which host RNAP is responsible for HDV antigenomic RNA synthesis still remains controversial. Previous studies from our laboratory indicated that host RNAP I may be involved in HDV life cycle. In the present study, the role of host RNAP I involved in the HDV antigenomic RNA synthesis was investigated. Using transfection system to allow HDV RNA replication occured in cells, the largest subunit of host RNAP I, RPA194, was shown to interact with HDV genomic RNA and small delta antigen required for HDV RNA replication. To mimic HDV infection in vivo, immortalized human hepatocytes were infected with HDV. Results showed that HDV antigenomic RNA synthesis was decreased in RPA194 knockdown cells. These results suggested that host RNAP I may play important roles in HDV antigenomic RNA synthesis. In addition, by using various softwares to analyze whether HDV genomic RNA contains the regulatory elements of host rRNA synthesis, a putative CTCF cis-element at nt 317~321 was identified. Mutations at the CTCF cis-element reduced both HDV antigenomic and genomic RNA levels. Surprisingly, the interaction between host RNAP I and the mutated HDV genomic RNA 1 (MT1) was enhanced, while interaction between host RNAP I and MT2 had no significant change as compared to the wildtype. How the putative CTCF cis-element and host RNAP I are involved in HDV antigenomic RNA synthesis needs to be further investigated.	en
dc.description.provenance	Made available in DSpace on 2021-07-11T15:40:59Z (GMT). No. of bitstreams: 1 ntu-107-R05442016-1.pdf: 2324365 bytes, checksum: a6d6cde0fca6a6123b65a5ef16eb9db3 (MD5) Previous issue date: 2018	en
dc.description.tableofcontents	致謝 I 中文摘要 II Abstract IV 縮寫表 VI 1. 緒論 1 1.1. 病毒性肝炎 1 1.2. D型肝炎病毒的感染方式及流行病學 1 1.3. D型肝炎病毒的發現及分類 2 1.4. D型肝炎病毒顆粒的組成 2 1.5. Delta抗原 (HDAg) 2 1.6. D型肝炎病毒RNA基因體 6 1.7. Delta抗原與宿主細胞之關係 8 1.8. RNAP I的轉錄作用 10 2. 研究主題 14 3. 實驗材料 15 3.1. 大腸桿菌菌株 (E. coli strains) 15 3.2. 細胞株 (Cell lines) 15 3.3. 引子 (Primers) 15 3.4. 抗體 (Antibodies) 16 3.5. 藥品 (Chemicals) 16 3.6. 套組試劑 (Kits) 18 3.7. 細胞培養液及試劑 19 3.8. 實驗室提供之質體 19 4. 實驗方法 21 4.1. 質體之構築 21 4.2. 聚合酶鏈鎖反應 (PCR) 22 4.3. 勝任細胞 (Competent cells)的製備 22 4.4. 細菌轉型作用 (Transformation) 23 4.5. 質體之小量製備 (Mini-preparation of plasmid DNA) 23 4.6. 質體之大量製備 (Midi-preparation of plasmid DNA) 23 4.7. DNA瓊脂膠體電泳 (DNA agarose electrophoresis) 24 4.8. 細胞繼代培養 (Subculture) 24 4.9. DNA短暫轉染 (DNA transfection) 25 4.10. 細胞內蛋白質之收集 25 4.11. 正十二烷硫酸-聚丙烯醯胺膠體電泳 (SDS-PAGE) 26 4.12. 西方墨點法分析 (Western blot analysis) 27 4.13. 細胞RNA之萃取 28 4.14. 反轉錄反應 (Reverse transcription) 28 4.15. 即時聚合酶鏈鎖反應 (Real-time PCR) 29 4.16. 帶有shRNA的VSV-G pseudotyped lentivirus之製備與感染 29 4.17. D型肝炎病毒之製備與感染 29 4.18. 細胞內D型肝炎病毒RNA複製之偵測 30 4.19. 細胞內45S pre-rRNA合成量之偵測 31 4.20. 免疫共沉澱法 (Co-IP) 31 4.21. 核糖核蛋白複合體免疫沉澱法 (RIP assay) 32 4.22. 統計方法 33 5. 實驗結果 35 5.1. 利用免疫沉澱法以及核糖核酸蛋白質複合體免疫沉澱法分別偵測宿主RNAP I與D型肝炎病毒小型delta抗原以及病毒基因股RNA的結合 35 5.2. 建立D型肝炎病毒的細胞感染系統 36 5.3. 探討D型肝炎病毒反基因股RNA的合成在宿主細胞RNAP I表現量低落時的影響 37 5.4. 預測可能存在於D型肝炎病毒基因股RNA上的類似宿主rRNA合成之調控區域 38 5.5. 利用轉染系統比較野生型與突變型D型肝炎病毒RNA在細胞內進行病毒RNA複製的能力 39 5.6. 利用感染系統探討野生型與突變型D型肝炎病毒RNA在細胞內進行病毒RNA複製的能力 39 5.7. 利用核糖核酸蛋白質複合體免疫沉澱法偵測宿主RNAP結合野生型與突變型病毒RNA的情形 40 6. 討論 42 7. 圖表 49 8. 附錄 59 9. 參考文獻 68	-
dc.language.iso	zh_TW	-
dc.subject	D型肝炎病毒	zh_TW
dc.subject	宿主RNA聚合?I	zh_TW
dc.subject	病毒RNA合成	zh_TW
dc.subject	反基因股RNA	zh_TW
dc.subject	轉錄因子	zh_TW
dc.subject	Transcription factor	en
dc.subject	HDV antigenomic RNA	en
dc.subject	host RNA polymerase I	en
dc.subject	HDV RNA synthesis	en
dc.subject	Hepatitis delta virus	en
dc.title	人類RNA聚合酶I在D型肝炎病毒反基因股RNA合成中扮演之角色	zh_TW
dc.title	Roles of human RNA polymerase I in antigenomic RNA synthesis of hepatitis delta virus	en
dc.type	Thesis	-
dc.date.schoolyear	106-2	-
dc.description.degree	碩士	-
dc.contributor.oralexamcommittee	孔繁璐;詹迺立;劉旻禕	zh_TW
dc.contributor.oralexamcommittee	;;	en
dc.subject.keyword	D型肝炎病毒,病毒RNA合成,宿主RNA聚合?I,反基因股RNA,轉錄因子,	zh_TW
dc.subject.keyword	Hepatitis delta virus,HDV RNA synthesis,host RNA polymerase I,HDV antigenomic RNA,Transcription factor,	en
dc.relation.page	78	-
dc.identifier.doi	10.6342/NTU201803115	-
dc.rights.note	未授權	-
dc.date.accepted	2018-08-13	-
dc.contributor.author-college	醫學院	-
dc.contributor.author-dept	生物化學暨分子生物學研究所	-
dc.date.embargo-lift	2023-10-09	-
顯示於系所單位：	生物化學暨分子生物學科研究所

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