鑑定梨形鞭毛蟲的ARID/bright同源蛋白質對於cwp1基因的轉錄調控之影響

Chih-Hung Wang; 王智鴻

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/30619

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	孫錦虹(Chin-Hung Sun)
dc.contributor.author	Chih-Hung Wang	en
dc.contributor.author	王智鴻	zh_TW
dc.date.accessioned	2021-06-13T02:10:21Z	-
dc.date.available	2007-07-12
dc.date.copyright	2007-07-12
dc.date.issued	2007
dc.date.submitted	2007-06-26
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Dallas, and Elizabeth Moran / ARID Proteins: A Diverse Family of DNA Binding Proteins Implicated in the Control of Cell Growth, Differentiation, and Development. / Cell Growth & Differentiation Vol. 13, 95–106, March 2002 6. Deborah Wilsker, Antonia Patsialou, Steven D. Zumbrun, Suhkmann Kim1, Yuan Chen1,Peter B. Dallas2 and Elizabeth Moran / The DNA-binding properties of the ARID-containing subunits of yeast and mammalian SWI/SNF complexes / Nucleic Acids Research, 2004, Vol. 32, No. 4 1345-1353 7. Deborah Wilsker, Loren Probst, Hester M. Wain, Lois Maltais, Philip W. Tucker, Elizabeth Moran, / Nomenclature of the ARID family of DNA-binding proteins / Genomics 86 (2005) 242–251 8. Heidi G. Elmendorf , Steven M. Singer , Jessica Pierce, James Cowan,Theodore E. Nash / Initiator and upstream elements in the a2-tubulin promoter of Giardia lamblia / Molecular & Biochemical Parasitology 113 (2001) 157–169 9. Herrscher RF, Kaplan MH, Lelsz DL, Das C, Scheuermann R, Tucker PW. / The immunoglobulin heavy-chain matrix-associating regions are bound by Bright: a B cell-specific trans-activator that describes a new DNA-binding protein family / Genes Dev. 1995 Dec 15;9(24):3067-82 10. Hugo D. Luja´ n, Michael R. Mowatt, John T. Conrad, Blair Bowers, and Theodore E. Nash / Identification of a Novel Giardia lamblia Cyst Wall Protein with Leucine-rich Repeats / THE JOURNAL OF BIOLOGICAL CHEMISTRY Vol. 270, No. 49, Issue of December 8, pp. 29307–29313, 1995 11. Iwahara J, Iwahara M, Daughdrill GW, Ford J, Clubb RT. / The structure of the Dead ringer-DNA complex reveals how AT-rich interaction domains (ARIDs) recognize DNA. / EMBO J. 2002 Mar 1;21(5):1197-209 12. Janet Yee, Michael R. Mowatt, Patrick P. Dennis, and Theodore E. Nash / Transcriptional Analysis of the Glutamate Dehydrogenase Gene in the Primitive Eukaryote, Giardia lamblia / THE JOURNAL OF BIOLOGICAL CHEMISTRY Vol. 275, No. 15, Issue of April 14, pp. 11432–11439, 2000 13. Jamee C. Nixon, Jaya Rajaiya, and Carol F. Webb / Mutations in the DNA-binding Domain of the Transcription Factor Bright Act as Dominant Negative Proteins and Interfere with Immunoglobulin Transactivation / THE JOURNAL OF BIOLOGICAL CHEMISTRY Vol. 279, No. 50, Issue of December 10, pp. 52465–52472, 2004 14. Jooyoung Jung, Tae-gyun Kim, Gary E. Lyons, Hyeong-Reh C. Kim, and Youngsook Lee / Jumonji Regulates Cardiomyocyte Proliferation via Interaction with Retinoblastoma Protein / THE JOURNAL OF BIOLOGICAL CHEMISTRY Vol. 280, No. 35, Issue of September 2, pp. 30916–30923, 2005 15. Keister DB. / Axenic culture of Giardia lamblia in TYI-S-33 medium supplemented with bile. / Trans R Soc Trop Med Hyg 77(4):487-8, 1983 16. Leigh A. Knodler, Staffan G. SvaÈrd, Jeffrey D. Silberman, Barbara J. Davids and Frances D. Gillin / Developmental gene regulation in Giardia lamblia: first evidence for an encystation-specific promoter and differential 58 mRNA processing / Molecular Microbiology (1999) 34(2), 327-340 17. Masafumi Watanabe, Matthew D. Layne, Chung-Ming Hsieh, Koji Maemura, Susan Gray, Mu-En Lee, Mukesh K. Jain / Regulation of Smooth Muscle Cell / Differentiation by AT-Rich Interaction Domain Transcription Factors Mrf2α and Mrf2β / Circ Res. 2002 Sep 6;91(5):382-9 18. PETER B. DALLAS, STEPHEN PACCHIONE, DEBORAH WILSKER, VALERIE BOWRIN, RYUJI KOBAYASHI, AND ELIZABETH MORAN / The Human SWI-SNF Complex Protein p270 Is an ARID Family Member with Non-Sequence-Specific DNA Binding Activity / MOLECULAR AND CELLULAR BIOLOGY, May 2000, p. 3137–3146 Vol. 20, No. 9 19. Robert H. Whitson, Ting Huang, and Keiichi Itakura / The Novel Mrf-2 DNA-Binding Domain Recognizes a Five-Base Core Sequence through Major and Minor-Groove Contacts / Biochemical and Biophysical Research Communications 258, 326–331 (1999) 20. RODNEY D.ADAM / Biology of Giardia lamblia / CLINICAL MICROBIOLOGY REVIEWS, July 2001, p.447–475 21. Sara R. Davis-Haymana, J. Russell Haymanb, Theodore E. Nash / Encystation-specific regulation of the cyst wall protein 2 gene in Giardia lamblia by multiple cis-acting elements / International Journal for Parasitology 33 (2003) 1005–1012 22. STEPHEN L. GREGORY, R. DANIEL KORTSCHAK, BILL KALIONIS, AND ROBERT SAINT / Characterization of the dead ringer Gene Identifies a Novel, Highly Conserved Family of Sequence-Specific DNA-Binding Proteins / MOLECULAR AND CELLULAR BIOLOGY, Mar. 1996, p.792–799 23. Tae-Gyun Kim, Jonathan C. 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dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/30619	-
dc.description.abstract	ARID(AT-rich interaction domain)蛋白質家族是真核生物的一種轉錄因子，在許多不同種的真核生物都有它的同源基因，這個家族的蛋白質通常與調控細胞的生長、發育和分化的作用有關，而這個家族的蛋白質和DNA的結合能力，各種ARID蛋白質的專一性都不盡相同，不過大致上都偏好於和AT-rich的序列結合；我們已經在梨形鞭毛蟲的基因組中找到兩個含有ARID 的基因，分別是garid1和garid2，我們首先對於garid1做分析；將AU1標記接到gARID1轉染梨形鞭毛蟲，利用免疫螢光染色可發現gARID1存在於細胞核中。gARID1的訊息RNA量在囊體化後會明顯下降，不過其陽性染色和蛋白質表現量都有明顯增加；EMSA實驗中也發現gARID1會明顯的與cwp1基因啟動子之AT-rich initiator結合，經由突變序列分析，也顯示gARID1的結合序列為AGATC和AATAAAATA，隨後我們也利用ChIP來證明gARID1在細胞內也的確會和cwp1基因的啟動子結合。在老鼠Bright上對DNA結合重要的氨基酸有4個，gARID1有3個，除了Tyr82外，Tyr82在老鼠Bright上是Phe。將此Tyr變成Ala突變，也會使gARID1失去和DNA結合的能力，顯示此氨基酸對DNA結合很重要。由於許多已知的ARID蛋白質可以和DNA minor groove結合，因此我們利用Distamycin A可以與DNA minor groove結合的特性作為競爭劑，也發現gARID也會和DNA minor groove結合。我們也利用螢光酵素基因接上cwp1基因啟動子，如果將其cwp1啟動子上的gARID1結合位置突變，也可以發現螢光酵素和訊息RNA的表現量有明顯的下降；再利用cotransfection assay，可發現gARID1會使螢光酵素和訊息RNA表現量明顯上升，然而如果將其cwp1啟動子上的gARID1結合位置突變，這種轉錄活化則消失。綜合這些結果，我們可以推斷ARID蛋白質家族在演化的過程中，其和DNA結合的特性是被保留的，此外我們也知道gARID1可能是梨形鞭毛蟲調控cwp1基因的一個重要的轉錄活化子。	zh_TW
dc.description.abstract	ARID (AT-rich interaction domain) protein is a transcription factor family in higher eukaryotes that regulates cell proliferation, development, and differentiation. Specificity of DNA binding ability in this family prefers AT-rich sequences, but some ARID family proteins are not sequence-specific DNA-binding proteins or they do not bind AT-rich sequences. We found two genes that encode ARID in Giardia lamblia genome database, garid1 and garid2. We analyzed the function of garid1 first. AU1-tagged gARID1 was found to localize to nuclei. During encystation, gARID1 mRNA level decreased emphatically, but protein level increased. We also found that gARID1 can bind AT-rich initiator of the cwp1 promoter by EMSA. Mutation analysis revealed gARID1 binding sequence was AGATC and AATAAAATA. We used ChIP to demonstrate that gARID1 can bind cwp1 gene promoter in vivo. Four key residues important for DNA binding activity of the mouse Bright are conserved in gARID1 with the exception of Tyr82, which corresponds to Phe in the mouse Bright. Mutation of the Tyr82 to Ala in gARID1 resulted in loss of its DNA binding activity, suggesting the importance of this residue in DNA binding. Experiments using distamycin A, a compound that binds to the minor groove of AT-rich DNA sequences also suggest that gARID1 can bind to the minor groove like other ARID proteins. Mutation of the gARID1 binding site in the cwp1 promoter resulted in a decrease of promoter activity and mRNA levels during vegetative growth and encystation, suggesting that the gARID1 binding sites are positive cis-acting elements of the cwp1 gene promoters in both trophozoites and encysting cells. Using cotransfection assay, we also found overexpession of gARID1 can increase luciferase activity and mRNA levels, while mutation of the gARID1 binding sites of the cwp1 promoter resulted loss of this transactivation. Accordingly, our results suggest DNA binding ability of ARID protein family has been conserved during evolution and gARID1 is an important transcriptional activator in regulation of Giardia cwp1 gene.	en
dc.description.provenance	Made available in DSpace on 2021-06-13T02:10:21Z (GMT). No. of bitstreams: 1 ntu-96-R94445204-1.pdf: 3009915 bytes, checksum: c77e718c2e948cc52067070798cf423e (MD5) Previous issue date: 2007	en
dc.description.tableofcontents	誌謝…………………………………………………………………… 5 中文摘要……………………………………………………………… 6 英文摘要……………………………………………………………… 8 前言………………………………………………………………… 10 一、梨形鞭毛蟲生活史與簡介………………………………….... 10 二、ARID蛋白質簡介……………………………… ……………... 11 三、本篇論文重點………………………………………………….. 13 材料與方法……………………………………… …………………. 14 一、梨形鞭毛蟲的培養…………………………… ………………. 14 二、garid基因的鑑定和質體的建構……………………………... 14 三、質體DNA的轉型與萃取……………………… ……………….. 15 四、梨形鞭毛蟲的轉染與選殖………………… …………………. 16 五、RT-PCR………………………………………… ……………... 16 六、Coomassie blue染色和西方墨點法……… ………………... 17 七、免疫螢光染色……………………………………………….... 18 八、重組gARID1蛋白質的表現與純化………………………….... 18 九、Electroretic Mobility Shift Assays (EMSA) …………….20 十、螢光酵素分析……………………………………………….....20 十一、北方墨點法…………………………………………………...21 十二、5’RACE分析…………………………………………………..22 十三、Chromatin Immunoprecipitation Assay (ChIP) …………23 結果…………………………………………………………………...25 一、garid1基因的鑑別……………………………………………….25 二、garid1基因的表現和細胞內的表現位置……………………….26 三、gARID1的DNA結合位置……………………………………..... 27 四、gARID1和DNA結合的特性………………………………….. ...30 五、gARID1的DNA結合位置對於轉錄作用的影響………………....31 六、gARID1對於cwp1基因啟動子轉錄作用的影響…………….... 32 討論………………………………………………………………... .35 表一………………………………………………………….……... 39 圖一………………………………………………………….……... 40 圖二…………………………………………………………….………41 圖三………………………………………………………….…………42 圖四……………………………………………………….………... 43 圖五………………………………………………………….……... 44 圖六………………………………………………………….……... 45 圖七…………………………………………………….…………... 46 圖八…………………………………………………….…………... 47 圖九………………………………………….……………………... 48 圖十………………………………………….……………………... 49 參考資料……………………………………….……………………..51
dc.language.iso	zh-TW
dc.subject	梨形鞭毛蟲	zh_TW
dc.subject	ARID	en
dc.title	鑑定梨形鞭毛蟲的ARID/bright同源蛋白質對於cwp1基因的轉錄調控之影響	zh_TW
dc.title	Characterization of an ARID/bright homologue involved in transcriptional regulation of cwp1 gene in Giardia lamblia	en
dc.type	Thesis
dc.date.schoolyear	95-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	李財坤,李建國,李明學,游偉絢
dc.subject.keyword	梨形鞭毛蟲,	zh_TW
dc.subject.keyword	ARID,	en
dc.relation.page	55
dc.rights.note	有償授權
dc.date.accepted	2007-06-27
dc.contributor.author-college	醫學院	zh_TW
dc.contributor.author-dept	微生物學研究所	zh_TW
顯示於系所單位：	微生物學科所

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