Processing of dengue virus type 2 structural proteins containing deletions in hydrophobic domains (original) (raw)
References
Bell JR, Kinney RM, Trent DW, Lenches EM, Dalgarno L, Strauss JH (1985) Aminoterminal amino acid sequences of structural proteins of three flaviviruses. Virology 143: 224–229 Google Scholar
Biedryzcka A, Cauchi MR, Bartholomeusz A, Gorman JJ, Wright PJ (1987) Characterization of protease cleavage sites involved in the formation of the envelope glycoprotein and three non-structural proteins of dengue virus type 2 New Guinea C strain. J Gen Virol 68: 1317–1326 Google Scholar
Bonner WM, Laskey RA (1974) A film detection method for tritium-labelled proteins and nucleic acids in polyacrylamide gels. Eur J Biochem 46: 83–88 Google Scholar
Boulton RW, Westaway EG (1977) Togavirus RNA: reversible effect of urea on genomes and absence of subgenomic viral RNA in Kunjin virus-infected cells. Arch Virol 55: 201–208 Google Scholar
Boyle DB, Couper BE, Both GW (1984) Multiple-cloning-site plasmids for the rapid construction of recombinant poxiviruses. Gene 35: 169–177 Google Scholar
Bray M, Zhao B, Markoff L, Eckels KH, Chanock RM, Lai C-J (1989) Mice immunized with recombinant vaccinia virus expressing dengue 4 virus structural proteins with or without nonstructural protein NS 1 are protected against fatal dengue virus encephalitis. J Virol 63: 2853–2856 Google Scholar
Castle E, Nowak T, Leidner U, Wengler G, Wengler G (1985) Sequence analysis of the viral core protein and the membrane-associated proteins V 1 and NV 2 of the flavivirus West Nile virus and of the genome sequence for these proteins. Virology 145: 227–236 Google Scholar
Calisher CH, Karabatsos N, Dalrymple JM, Shope RE, Porterfield JS, Westaway EG, Brandt WE (1989) Antigenic relationships between flaviviruses as determined by cross-neutralization tests with polyclonal antisera. J Gen Virol 70: 37–43 Google Scholar
Coia G, Parker MD, Speight G, Byrne ME, Westaway EG (1988) Nucleotide and complete amino acid sequences of Kunjin virus: definitive gene order and characteristics of the virus-specified proteins. J Gen Virol 69: 1–21 Google Scholar
Crawford GR, Wright PJ (1987) Characterization of novel viral polyproteins detected in cells infected by the flavivirus Kunjin and radiolabelled in the presence of the leucine analogue hydroxyleucine. J Gen Virol 68: 365–376 Google Scholar
Deubel V, Kinney RM, Esposito JJ, Cropp CB, Vorndam AV, Monath TP, Trent DW (1988) Dengue 2 virus envelope protein expressed by a recombinant vaccinia virus fails to protect monkeys against dengue. J Gen Virol 69: 1921–1929 Google Scholar
Falgout B, Chanock R, Lai C-J (1989) Proper processing of dengue virus nonstructural glycoprotein NS 1 requires the N-terminal hydrophobic signal sequence and the downstream nonstructural protein NS2a. J Virol 63: 1852–1860 Google Scholar
Gruenberg A, Woo WS, Biedrzycka A, Wright PJ (1988) Partial nucleotide sequence of the structural protein of dengue type 2 New Guinea C and PUO-218 strains. J Gen Virol 69: 1391–1398 Google Scholar
Hahn YS, Galler R, Hunkapillar T, Dalrymple JM, Strauss JH, Strauss EG (1988) Nucleotide sequence of dengue 2 RNA and comparison of the encoded proteins with those of other flaviviruses. Virology 162: 167–180 Google Scholar
Hahn YS, Lenches EM, Galler R, Rice CM, Dalrymple J, Strauss JH (1990) Expression of the structural proteins of dengue 2 virus and yellow fever virus by recombinant vaccinia viruses. Arch Virol 115: 251–265 Google Scholar
Irie K, Mohan PM, Sasguri Y, Putnak R, Padmanabhan R (1989) Sequence analysis of cloned dengue virus type 2 genome (New Guinea-C strain). Gene 75: 197–211 Google Scholar
Kozak M (1987) At least six nucleotides preceding the AUG initiation codon enhance translation in mammalian cells. J Mol Biol 196. 947–950 Google Scholar
Laemmli UK (1970) Cleavage of structural proteins during the assembly of the head of bacteriophage T 4. Nature 227: 680–685 Google Scholar
Mackett M, Smith GL, Moss B (1982) Vaccinia virus: a selectable eukaryotic cloning and expression vector. Proc Natl Acad Sci USA 79: 7415–7419 Google Scholar
Mackett M, Smith GL, Moss B (1984) General method for production and selection of infectious vaccinia virus recombinants expressing foreign genes. J Virol 49: 857–864 Google Scholar
Markoff L (1989) In vitro processing of dengue virus structural proteins: cleavage of the pre-membrane protein. J Virol 63: 3345–3352 Google Scholar
Mason PW, Pincus S, Fournier MJ, Mason TL, Shope RE, Paoletti E (1991) Japanese encephalitis virus-vaccinia recombinants produce particulate forms of the structural membrane proteins and induce high levels of protection against lethal JEV infection. Virology 180: 294–305 Google Scholar
Naeve CW, Trent DW (1978) Identification of Saint Louis encephalitis virus mRNA. J Virol 25: 535–545 Google Scholar
Rhim JS, Cho HY, Hubner RJ (1975) Non-producer human cells induced by murine sarcoma virus. Int J Cancer 15: 23–29 Google Scholar
Rice CM, Lenches EM, Eddy AR, Shin SJ, Sheets RL, Strauss JH (1985) Nucleotide sequence of yellow fever virus: implications for flavivirus gene expression and evolution. Science 229: 726–733 Google Scholar
Rigby PW, Dieckmann M, Rhodes C, Berg P (1977) Labelling DNA to high specific activity in vitro by nick translation with DNA polymerase I. J Mol Biol 113: 237–251 Google Scholar
Ruiz-Linares A, Cahour A, Deprès P, Girard M, Bouloy M (1989) Processing of yellow fever virus polyprotein: role of cellular proteases in maturation of the structural proteins. J Virol 63: 4199–4209 Google Scholar
Sanger F, Nicklen S, Coulson AR (1977) DNA sequencing with chain terminating inhibitors. Proc Natl Acad Sci USA 74: 5463–5467 Google Scholar
Shapiro D, Brandt WE, Russell PK (1972) Change involving a viral membrane glycoprotein during morphogenesis of group B arboviruses. Virology 50: 906–911 Google Scholar
Smith GW, Wright PJ (1985) Synthesis of proteins and glycoproteins in dengue type 2 virus-infected Vero and Aedes albopictus cells. J Gen Virol 66: 559–571 Google Scholar
Speight G, Coia G, Parker MD, Westaway EG (1988) Gene mapping and positive identification of the non-structural proteins NS2A, NS2B, NS 3, NS4B, and NS 5 of the flavivirus Kunjin and their cleavage sites. J Gen Virol 69: 23–34 Google Scholar
Speight G, Westaway EG (1989) Carboxy-terminal analysis of nine proteins specified by the flavivirus Kunjin: evidence that only the intracellular core protein is truncated. J Gen Virol 70: 2209–2214 Google Scholar
Svitkin YV, Lyapustin VN, Lashkevich VA, Agol VI (1984) Differences between translation products of thick-borne encephalitis virus RNA in cell-free systems from Krebs-2 cell and rabbit reticulocytes: involvement of membranes in the processing of nascent precursors of flavivirus structural proteins. Virology 135: 536–541 Google Scholar
von Heijne G (1985) Signal sequences: the limits of variation. J Mol Biol 184: 99–105 Google Scholar
Wengler G, Castle E, Leidner U, Nowak T, Wengler G (1985) Sequence analysis of the membrane protein V 3 of the flavivirus West Nile virus and of its gene. Virology 147: 264–274 Google Scholar
Westaway EG (1980) Replication of flaviviruses. In: Schlesinger RW (ed) The togaviruses: biology, structure, replication. Academic Press, New York, pp 531–581 Google Scholar
Westaway EG, Brinton MA, Gaidamovich SYA, Horzinek MC, Igarashi A, Lvov DK, Porterfield JS, Russell PK, Trent DW (1985) Flaviviridae. Intervirology 24: 183–192 Google Scholar
Wright PJ, Cauchi MR, Ng ML (1989) Definition of the carboxy-termini of the three glycoproteins specified by dengue virus type 2. Virology 171: 61–67 Google Scholar
Zhao B, Prince G, Horswood R, Eckels K, Summers P, Chanock R, Lai C-J (1987) Expression of dengue virus structural proteins and nonstructural protein NSI by a recombinant vaccinia virus. J Virol 61: 4019–4022 Google Scholar