文蛤病毒轉錄及複製過程及加帽酵素之研究

陳彥州

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dc.contributor.author	陳彥州	zh_TW
dc.date.accessioned	2021-07-01T08:16:16Z	-
dc.date.available	2021-07-01T08:16:16Z	-
dc.date.issued	1992
dc.identifier.citation	Amend, D.F., T. Mcdowell and R. P. Hedrick,. 1984. Characteristics of a previously unidentified virus from channel catfish. Can. J. Fish. Aquatic Sci. 41: 807-811. Amano, Y., S.Katagari, N. Ishida and Y.Watanabe,. 1971 Spontaneous degradation of reovirus capsid into subunits. J. Virol. 8: 805 - 808. Arias, C. F., S. Lopez and R. T. Espejo,. 1982. Gene products of SA11 simian rotavirus genome. J. Virol 41: 42-50. Astell, C., S. C. Silverstein, D. H. Levin and G. Acs,. 1972. Regulation of the reovirus RNA transcriptase by a viral capsomere protein.Virol. 48: 648 - 654. Bastardo, J. W. and I. H. Holmes,. 1980. Attachment of SA-11 rotavirus to erythrocyte receptors. Infect.Immun. 29: 1134-1140. Bellamy, A. R., L. V. Hole and B. C. Baguley,. 1970 Isolation of the trinucleotide pppGpCpU from reovirus Virol. 42:415 - 420. Bellamy, A. R. and W. K. Joklik,. 1967. Studies on reovirus RNA. 11. Characterization of reovirus messenger RNA and of the genome RNA segments from which it is transcribed. J. Mol. Biol. 29: 19-26. Bican, P., J. Coheen, A. Charpilienne and R. Scherrer,. 1982. Purification and characterization of bovine rotavirus cores. J. Virol. 43:1113-1117. Borsa, J., J. Grover and J.D. Chapman,. 1970.Presence of nucleoside triphosphate phosphohydrolase activity in purified virion of revirus. J. Virol. 6:295-302. Bridger, J. C. and G. N. Woode,. 1976. Characterization of two particle types of calf rotavirus. J. Gen. Virol. 31:245-250. Brosa, J., B. D. Morash, M. D. Sagent, T. P. Copps, P. A. Lievaart and J. G. Szekely,. 1980. Two modes of entry of reovirus particles into L cells.J. Gen. Virol. 45:161-170. Carter, C., C. M. Stolzfus, A. K. Banerjee and A. J. Shatkin,. 1974. Origen of reovirus oligo(A). J. Virol. 13:1331-1337. Casper, D. L. D. and A. Klug,. 1962. Physical properties in the construction of regular viruses. Cold Spring Harbor Symp. Quant. Biol. 27:1-32. Clark, S. M., J. R. Roth, M. L. Clark, B. B. Barnett, and R. S. Spendlove,. 1981. Trypsin enhancement of rotavirus infectivity: mechanism of enhancement. J. Virol. 39: 816-822. Cleceland, D. R., H. Zarbl, and S. Millward,. 1986. Reovirus guanylyltrasnferase is L2 gene product lambda 2. J. Virol.60:307 - 311. Estes, M. K., D. Y. Graham, E. M. Smith and C. P. Gerba,. 1979. Rotavirus stability and inactivation.J. Gen.Virol. 43: 403-409. Farrell, J. A., J. D. Harvey and A. R. Bellamy,. 1974. Biophysical studies of reovirus type 3. 1. The molecular weight of reovirus and reovirus cores. Virol. 62:145-153. Flewett, T. H., A. S. Bryden, H. Davies, G. N. Woode, J. C. Bridger and J. M. Derrick,. 1974. Relation between viruses from acute gastroenteritis of children and newborn calves. Lancet 2;61-63. Furlong, D. B., M. L. Nibert and B. N. Fields,. 1988. Sigma 1 protein of mammalian reoviruses extends from the surfaces of viral particles. J. virol. 62:246-256. Furuichi, y., S. Muthukrishnan, and A. J. Shatkin,. 1975. 5'- Teriminal M7G(5')ppp(5')Gmp in vivo:identification in reovirus genome RNA. Proc. Natl. Acad. Sci. USA 72: 742-745. Furuichi, Y., A. Lafiandra, and A. J. Shatkin,. 1977 5'-terminal structure and mRNA stability. Nature 266:235 - 239. Gomatos, P. J., N. M. Stamatos and N. H. Sarkar,. 1980. Small reovirus -specific particle with polycytidylate-dependent RNA polymerase activity. J. Virol. 36 556-565. Gomatos, P. J. and W. Stoeckenius,. 1964. Electrin microscope studies on reovirus RNA.Proc. Natl. Aacad. Sci. USA 52: 1449 - 1455. Gomatos, P. J., I. Tamm, S. Dales and R. M. Franklin,. 1962. Reovirus type 3: physical characteriistics and interactions with L cells. Virol. 17: 441 - 454. Gombold, J. L. and R. F. Ramig,. 1986. Analysis of reassortment of genome segments in mice mixedly infected with rotaviruses SA11 and RRV. J. Virol. 57:110-116. Greenberg, H. B., J. Flores, A. R. Kalica, R. G. Wyatt and R. Jones,. 1983. Gene coding assignments for growth restriction, neutralization and subgroup specificities of the W and DS-1 atrains of human rotavirus. J. Gen Virol. 64: 313-320. Hedrick, R.p., R.Rosemark, D. Aronstein, J. R. Winton, T. Mcdowell and D. F. Amend,. 1984. Characteristics of a new reovirus from channel catfish (Ictalurus punctatus) J. Gen. Virol. 65: 1527-1534. Kabcenell, A. K.and P. H. Atkinson,. 1985. Processing of the rough endoplasmic reticulum membrane glycoproteins of rotavirus SA11. J. Cell Biol. 101:1270-1280. Kabcenell, A. K., M. S. Poruchynsky, A. R.Bellamy, H. B. Greenberg and P.H. Atkinson,. 1988. Two forms of VP7 are involved in assembly of SA11 rotavirus in endoplasmic reticulum. J. Virol. 62: 2929-2941. Kalica, A. R., J. Flores and H. B. Greenberg. 1983. Identification of the rotaviral gene that codes for the hemmagglutinin and protease - enhanced plaque formation. Virol. 125: 194-205. Kapahnke, R., W. Rappold, U.Desselberger and D.Riesner,. 1986. The stiffness of dsRNA: hydrodynamic studies on fluorescence -labelled RNA segments of bovine rotavirus. Nucleic Acid Res. 14:3215-3228. Krystal, G., P. Winn, S. Millward and S. Sakuma. 1975. Evidence for phosphoproteins in reovirus. Virol. 64: 505-512. Lee, P. W. K., E. C. Hayes. and W. K. Joklik,. 1981. Characterization of anti - reovirus immunoglobulins selectd by cloned hybridoma cell lines. 108:134 - 146. Mason, B. B., D. Y. Graham and M. K. Estes,. 1980. In vitro transcroption and translation of simian rotavirus SA11 gene products. J. Virol. 33: 1111 - 1121. Matsuno, S. and S. Inouye,. 1983. Purification of an outer capsid glycoprotein in neonata calf diarrhea virus and preparation of its antisera. Infect. Immun. 39: 155 - 158 McCrae, M.A. and G.P. Faulkner-Valle,. 1981. Molecular biology of rotaviruses. 1. Characterization of basic growth parameters and pattern of macro-molecuar synthesis. J. Virol. 39:490 - 496. McCrae, M. A. and J. G. McCorquodale,. 1982. Molecular biology of rotavirus. II. Identification of the protein - coding assignments of calf rotavirus genome RNA species. Virol. 117:435 - 443 Meyers, T. R.. 1979. A reo-like virus isolated from juvenile American oysters (Crassostrea virginica). J. Gen. Virol. 43: 203 - 212 Meyers, T.R.. 1980. Experimental pathogenicity of reovirus 13P2 for juvenile American oysters Crassostrea virginica (Gmelin) and bluegill fingerlings Lepomis macrochirus (Rafinesque). J. Fish disease. 3:187 - 201. Meyers, T.R.. 1983. Serological and histopathological responses of rainbow trout, Salmo gairdneri Richardson, to experimental infection with the 13P2 reovirus. J Fish Disease. 6:277-292. Meyers, T. R. and K. Hirai,. 1980. Morphology of reo-like virus isolated from juvenile American oysters (Crasso-Strea virginica). J. Gen. Virol. 46: 249 - 253 patton, J. T.. 1987. Synthesis of simian rotavirus SA11 double - stranded RNA in a cell-free system. Virus Res. 6:217-233. Patton, J. T. and S. Stacy - Phipps. Electrophoretic separation of the plus and minus strands of rotavirus SA11 double-stranded RNAs. J. Virol. Methods 13: 185-190. Petrie, B. L., M. K. Estes and D. Y. Graham,. 1983. Effect of tunicamycin on morphogenesis and infectivity. J. Virol. 46: 270-274. Plotch, S.J., M. Bouloy, I. Ulmanen and R. M. Rug. 1981. A uunque cap (mGpppXm) - dependent influenza virion endonuclease cleaves capped RNAs to generate the primers that initiate viral RNA transcription. Cell 23: 847 - 858 Plumb, J. A., P. R. Bowser, J. M. Grizzle and A.J. Mitchell,. 1979. Fish viruses: a double- stranded RNA icosahedral virus from a North American cyprinid. J. Fisheries Res. Board Can. 36: 1390 - 1394 Sabara M, J. E. Gilchrist, G. R. Hudson and L. A Babiuk,. 1985. Preliminary characterization of an epirope involved in neutralization and cell attachment that is located on the major bovine rotavirus glycoprotein. J. Virol. 53: 58-66. Sandino A.M, M. Jashes, G. Faundez and Spencer E,. 1986. Role of the inner protein capsid on in vitro human rotavirus transcription. J. Virol. 60:797 - 802 Schwedler, T. E. and J. A. Plumb,. 1980. Fish virus: serological comparison of golden shiner and infectious pancreatic necrosis viruses. J. Wildlife Disease 16: 597 - 599. Schwedler, T.E. and J. A. Plumb. 1982a. In vitro growth kinetics and thermostability of the golden shiner virus. J. Wilderlife Disease 18: 441 - 446. Schewedler, T. E. and J. A. Plumb. 1982b. Golden shiner virus: effects of stocking density on incidence of viral infection. Pro. Fish Cul. 44:151 - 152 Seliger, L. S., K. Zheng and A. J. Shatkin,. 1987. Complete nucleotide sequence of reocirus L2 gene and deduced amino acid sequence of viral mRNA guanylyl-transferase. J. Biol. Chem. 262: 16289 - 16293 Shatkin, A. J. and J. D. Sipe,. 1968. Single-stranded adenine-rich RNA from purified reovirus. Proc. Natl. Acad. Sci. USA 59: 246 - 253. Shatkin, A. J. and J. p. Sipe,. 1968. RNA polymerase activity in purified reovirus. Proc. Natl. Acad. Sci. USA 61 : 1462 - 1469. Shuman, S., S. S. Broyles and B. Moss,. 1987. Purification and characterization of a transcription termination factor from vacinia virions. J. Bio. Chem. 262: 12372 - 12380. Shuman, S. and B. Moss,. 1990. Purification and use of vaccinia virus messsenger RNA capping enzyme. Method Emzymol. 181 :170 - 180 Silverstein, S. C., C. Astell, D. H. Levin, M. Schonberg, and G. Acs,. 1972. The mechanisms of reovirus uncoating and gene activation in vivo. Virol. 47 : 797 - 806 Silverstein, S.C. and S. Dales,. 1968. The penetration of reovirus RNA and initiation of its genetic function in L-strain fibroblasts. J. Cell Biol. 36 :197 - 230. Skehel, J. J. and W. K. Joklik,. 1969. Studies on the in vitro transcription of reovirus RNA catalyzed by reovirus cores. Virol. 39 : 822 - 831. Skup, D. and S. Millward,. 1980. Reovirus-induced modification of cap dependent translation in infected L cells. Proc. Natl. Acad. Sci. USA 77 : 152 - 156. Smith, M. L., I. Lazdins and I. H. Holmes,. 1980. Coding assignments of double - stranded RNA segments of SA11 rotavirus established by in vitro translation. J. Virol. 33 : 976 - 982 Smith, R. E., H. J. Zweerink and W. K. Joklik,. 1969. Polypeptide components of virion, top component and cores of reovirus 3. Virol. 39 : 791 - 810 Suzuki, H., S. Kitaoka, T. Konno, T.Sato, and N.Isheda,. 1985. Two modes of human rotavirus entry into MA104 cells. Arch. Virol. 85 : 25 - 34 Tam, J. S., M. T. Szymanski, P. J. Middleton and M. Petric,. 1976. studies on the particles of infantile gastroenteritis virus (Orbivirus group). Inter. virol. 7 : 181 - 191 vos, J. C., M. Sasker and H. G. Stunnenberg,. 1991. Vaccinia virus capping enzyme is a trancription initiation factor. EMBO J. 10: 2553 - 2558. Wachsman, J. T., D. H. Levin and G.A.C.S,. 1970. Ribonucleoside triphosphate - dependent pyrophosphate exchange of reovirus cores. J. Virol. 6: 563 - 565 Winton, J. R.. 1981. Isolation and characterization of a new reovirus from chum salmon (Oncorhynchus keta). PH.D. thesis, Oregon State University. Winton, J. R. C.N. Lannan, J. L. Fryer and T. Kimura,. 1981. Isolation of a new reovirus from chum salmon in Japan. Fish Pathol. 15 : 155 - 162 Winton, J.R., C.N. Lannan and J. L. Fryer,. 1983. Further characterization of poikilothermic vertebrate. In Double-stranded RNA Virus, p. 231 - 236. Edited by R.W. Compans & D. H. L.Bishop. New York: Elsevier. Zarbl, H. and S. Millward,. 1983. The reovirus mutli-plication cycle. In Joklik W. K., ed. 'The Reoviridae'. New York: Plenum Press, p.107 - 196
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/75898	-
dc.description.abstract	文蛤水產呼腸孤病毒（CAV）為本研究室於民國七十五年自文蛤體內所分離出來。本論文分為二部份：（一）研究病毒複製及轉錄的過程，以瞭解病毒的生活史，期能發展出有效的防治方法。利用「32P」-Orthophosphate標定病毒RNA，再以3％Agarose-urea gel分析，發現在感染後18小時才有RNA的合成，且合成量隨時間增長而漸增；再用S1-Nuclease處理不同時間標定的RNA，以10％SDS-PAGE分析發現，在感染後18小時即有dsRNA出現。此外，自培養液回收病毒，發現在感染後36小時才有標定之病毒釋出。由以上可知CAV自感染細胞後12-18小時之間開始轉錄及複製，而在感染後36小時才開始將病毒顆粒釋出，所以一個病毒複製循環需時約36小時；在感染後12小時之前均無標定之病毒RNA出現，故推測CAV感染細胞後應有一段大約為12小時的潛伏期，目標是由病毒total RNA的放射量與dsRNA的比較，推測應先轉錄後複製。（二）探討CAV之Guanylyltransferase的特性。CAV的病毒結構蛋白λ2，可與GTP形成GMP-λ2複合體，故推測λ2具有Guanylyltransferase的功能。GMP-λ2複合體的形成受時間，溫度，病毒蛋白量，二價離子濃度等因素影響，且受焦磷酸（Pyrophosphate），DTT（dithiothreitol），Sodium Phosphate等分子抑制。若加入活體外轉錄之RNA，或RNA Ladder，均會使GMP-λ2複合體消失，且GMP被轉移至RNA上，故確定λ2具有加帽酵素之Guanylyltransferase的功能。	zh_TW
dc.description.provenance	Made available in DSpace on 2021-07-01T08:16:16Z (GMT). No. of bitstreams: 0 Previous issue date: 1992	en
dc.description.tableofcontents	摘要……………………………………1 壹、前言……………………………………2 貳、文獻整理……………………………………3 一、水產呼腸孤病毒（Aquareovirus）的發現……………………………………5 （一）GSV……………………………………5 （二）13P2……………………………………5 （三）CSV……………………………………6 （四）CRV……………………………………6 （五）其他……………………………………7 二、水產呼腸孤病毒（Aquareovirus）的分類地位……………………………………7 三、Reovirus……………………………………9 （一）Morphology……………………………………9 （二）基因組成……………………………………10 （三）蛋白質組成……………………………………10 （四）病毒蛋白醇素活性……………………………………11 （五）Reovirus的生活史……………………………………12 四、Rotavirus……………………………………13 （一）Morphalogy……………………………………14 （二）基因組成及產物……………………………………15 （三）Rotavirus的生活史……………………………………17 參、實驗材料及方法……………………………………20 （一）實驗材料……………………………………20 （二）實驗方法……………………………………21 肆、實驗結果……………………………………32 一、GTP-酵素複合體的位置……………………………………32 二、溫度對[α-32P]GTP結合反應的影響……………………………………32 三、鎂離子對GMP－λ2複合體形成的影響……………………………………33 四、GTP的影響對GMP－λ2複合體形成的影響……………………………………33 五、抑制物對複合體的影響……………………………………33 六、結合反應時間對GMP－λ2複合體的影響……………………………………34 七、病毒蛋白量對GMP-λ2複合體結合的影響……………………………………34 八、λ2對GTP結合的專一性……………………………………34 九、RNA對複合體結合的影響……………………………………35 十、確定CAV病毒的外鞘蛋白質組成……………………………………35 十一、EDTA對病毒顆粒的影響……………………………………36 十二、CAV轉錄及複裂的過程……………………………………36 伍、討論……………………………………37 陸、參考資料……………………………………40 附圖……………………………………f1
dc.language.iso	zh-TW
dc.title	文蛤病毒轉錄及複製過程及加帽酵素之研究	zh_TW
dc.title	The Studies on Transcription and Replication Processes and Guanylyltransferase Function of Clam Aquareovirus (CAV)	en
dc.date.schoolyear	80-2
dc.description.degree	碩士
dc.relation.page	68
dc.rights.note	未授權
dc.contributor.author-dept	生命科學院	zh_TW
dc.contributor.author-dept	漁業科學研究所	zh_TW
顯示於系所單位：	漁業科學研究所

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