Retroviral RNA Packaging: Sequence Requirements and Implications (original) (raw)

• Adam MA, Miller AD (1988) Identification of a signal in a murine retrovirus that is sufficient for packaging of non-retroviral RNA into virions. J Virol 62: 3802–3806
  PubMed CAS PubMed Central Google Scholar
• Adkins B, Hunter T (1981) Identification of a packaged cellular mRNA in virions of Rous sarcoma virus. J Virol 39: 471–481
  PubMed CAS PubMed Central Google Scholar
• Armentano D, Yu S-F, Kantoff PW, von Ruden T, Anderson WF, Gilboa E (1987) Effect of internal viral sequences on the utility of retroviral vectors. J Virol 61: 1647–1650
  PubMed CAS PubMed Central Google Scholar
• Baltimore D (1985) Retroviruses and retrotransposons: the role of reverse transcriptase in shaping the eukaryotic genome. Cell 40: 481–482
  Article PubMed CAS Google Scholar
• Bender MA, Palmer TD, Gelinas RE, Miller AD (1987) Evidence that the packaging signal of Moloney murine leukemia virus extends into the gag region. J Virol 61: 1639–1646
  PubMed CAS PubMed Central Google Scholar
• Besmer P, Olshevsky D, Baltimore D, Dolberg D, Fan H (1979) Virus-like 30S RNA in mouse cells. J Virol 29: 1168–1176
  PubMed CAS PubMed Central Google Scholar
• Biczysko W, Pienkowski M, Solter D, Koprowski H (1973) Virus particles in early mouse embryos. JNCI 51: 1041–1959
  PubMed CAS Google Scholar
• Biegalke B, Linial M (1987) Retention or loss of v-mil sequences after propagation of MH2 virus in vivo or in vitro. J Virol 61: 1949–1956
  PubMed CAS PubMed Central Google Scholar
• Bister K, Jansen HW (1986) Oncogenes in retroviruses and cells: biochemistry and molecular genetics. Adv Cancer Res 47: 99–188
  Article PubMed CAS Google Scholar
• Bosselman RA, Hsu R-Y, Bruszewski J, Hu S, Martin F, Nicholson M (1987) Replication-defective chimeric helper proviruses and factors affecting generation of competent virus: expression of Moloney murine leukemia virus structural genes via the metallothionein promoter. Mol Cell Biol 7: 1797–1806
  PubMed CAS PubMed Central Google Scholar
• Canaani E, von der Helm K, Duesberg P (1973) Evidence for 30–40S RNA as precursor of the 60–70S RNA of Rous sarcoma virus. Proc Natl Acad Sci USA 70: 401–405
  Article PubMed CAS PubMed Central Google Scholar
• Chen P-J, Cywinski A, Taylor JM (1985) Reverse transcription of 7S-L RNA by an avian retrovirus. J Virol 54: 278–284
  PubMed CAS PubMed Central Google Scholar
• Cheung K-S, Smith RE, Stone MP, Joklik WK (1972) Comparison of immature (rapid) and mature Rous sarcoma virus particles. Virology 50: 851–864
  Article PubMed CAS Google Scholar
• Coffin JM (1979) Structure, replication and recombination of retrovirus genomes. J Gen Virol 42: 1–26
  Article PubMed CAS Google Scholar
• Coffin JM (1984a) Structure of the retroviral genome. In: Weiss R, Teich N, Varmus H, Coffin J (eds) 2nd edn, Part 1, Cold Spring Harbor Laboratory, Cold Spring Harbor, pp 261–368
  Google Scholar
• Coffin JM (1984b) Endogenous viruses. In: Weiss R, Teich N, Varmus H, Coffin J (eds) RNA tumor viruses. 2nd edn, Part 2. Cold Spring Harbor Laboratory, Cold Spring Harbor, pp 1110–1202
  Google Scholar
• Coffin JM (1985) Genome structure. In: Weiss R, Teich N, Varmus H, Coffin J (eds) RNA tumor viruses. 2nd edn, Part 2. Cold Spring Harbor Laboratory, Cold Spring Harbor, pp 17–74
  Google Scholar
• Cone RD, Mulligan RC (1984) High-efficiency gene transfer into mammalian cells: generation of helper-free recombinant retrovirus with broad mammalian host range. Proc Natl Acad Sci USA 81:6349–6353
  Article PubMed CAS PubMed Central Google Scholar
• Copeland NG, Hutchison KW, Jenkins NA (1983) Excision of the DBA ecotropic provirus in dilute coat-color revertants of mice occurs by homologous recombination involving the viral LTRs. Cell 33: 379–387
  Article PubMed CAS Google Scholar
• Covey SN, Turner DS (1986) Hairpin DNAs of cauliflower mosaic virus generated by reverse transcription in vivo. EMBO J 5: 2763–2768
  PubMed CAS PubMed Central Google Scholar
• DeGudicibus SJ, Gentile B, Bhatt RS, Poonian MS, Stacey DW (1986) Studies of retroviral packaging. In: Celis JE, Graessmann A, Loyter A (eds) Microinjection and organelle transplantation techniques. Academic, London, pp 59–65
  Google Scholar
• Dickson C, Eisenman R, Fan H, Hunter E, Teich N (1984) Protein biosynthesis and assembly. In: Weiss R, Teich N, Varmus H, Coffin J (eds) RNA tumor viruses 2nd edn, Part I. Cold Spring Harbor Laboratory, Cold Spring Harbor, pp 785–998
  Google Scholar
• Dornburg R, Temin HM (1988) Retroviral vector system for the study of cDNA gene formation. Mol Cell Biol 8: 2329–2334
  Google Scholar
• Embretson JE, Temin HM (1987) Lack of competition results in efficient packaging of heterologous murine retroviral RNAs and reticuloendotheliosis virus encapsidation-minus RNAs by the reticuloendotheliosis virus helper cell line. J Virol 61: 2675–2683
  PubMed CAS PubMed Central Google Scholar
• Fu X, Phillips N, Jentoft J, Tuazon PT, Traugh JA, Leis J (1985) Site-specific phosphorylation of avian retrovirus nucleocapsid protein pp 12 regulates binding to RNA. J Biol Chem 260: 9941–9947
  PubMed CAS Google Scholar
• Fu X, Katz RA, Skalka AM, Leis J (1988) Site-directed mutagenesis of the avian retrovirus nucleocapsid protein pp 12: mutation which affects RNA binding in vitro blocks viral replication. J Biol Chem 263: 2134–2139
  PubMed CAS Google Scholar
• Gallis B, Linial M, Eisenman R (1979) An avian oncovirus mutant deficient in genomic RNA: characterization of the packaged RNA as cellular messenger RNA. Virology 94: 146–161
  Article PubMed CAS Google Scholar
• Garfinkel DJ, Boeke JD, Fink GR (1985) Ty element transposition: reverse transcriptase and viruslike particles. Cell 42: 507–517
  Article PubMed CAS Google Scholar
• Geryk J, Pichrtova J, Guntaka RV, Gowda S, Svoboda J (1986) Characterization of transforming viruses rescued from a hamster tumour cell line harbouring the v-src gene flanked by long terminal repeats. J Gen Virol 67: 2395–2404
  Article PubMed CAS Google Scholar
• Gerwin BI, Levin JG (1977) Interactions of murine leukemia virus core components: characterization of reverse transcriptase packaged in the absence of 70S genomic RNA. J Virol 24: 478–488
  PubMed CAS PubMed Central Google Scholar
• Goldfarb MP, Weinberg RA (1981) Generation of novel, biologically active Harvey sarcoma viruses via apparent illegitimate recombination. J Virol 38: 136–150
  PubMed CAS PubMed Central Google Scholar
• Gorelick RJ, Henderson LE, Hanser JP, Rein A Point mutants of Moloney murine leukemia virus that fail to package viral RNA: evidence for specific RNA recognition by a “zinc finger-like” protein sequence. Proc Nat Acad Sci USA 85: 8420–8424
  Google Scholar
• Heidmann T, Heidmann O, Nicolas J-F (1988) An indicator gene to demonstrate intracellular transposition of defective retroviruses. Proc Natl Acad Sci USA 85: 2219–2223
  Article PubMed CAS PubMed Central Google Scholar
• Herman SA, Coffin JM (1986) Differential transcription from the long terminal repeats of integrated avian leukosis virus. J Virol 60: 497–505
  PubMed CAS PubMed Central Google Scholar
• Herman SA, Coffin JM (1987) Efficient packaging of readthrough RNA in ALV: implications for oncogene transduction. Science 236: 845–848
  Article PubMed CAS Google Scholar
• Huang TTF, Calarco PG (1981) Evidence of cell surface expression of intracisternal A particle-associated antigens during early mouse development. Dev Biol 82: 388–392
  Article PubMed Google Scholar
• Hunter E (1978) The mechanism for genetic recombination in the avian retroviruses. Curr Top Microbiol Immunol 79: 295–309
  Article PubMed CAS Google Scholar
• Ikawa Y, Ross J, Leder P (1974) An association between globin messenger RNA and 60S RNA derived from Friend leukemia virus. Proc Natl Acad Sci USA 71: 1154–1158
  Article PubMed CAS PubMed Central Google Scholar
• Jagadeeswaran P, Forget BG, Weissman SM (1981) Short interspersed repetitive DNA elements in eukaryotes: transposable NA elements generated by reverse transcription of RNA pol III transcripts? Cell 26: 141–142
  Article PubMed CAS Google Scholar
• Junghans RP, Boone LR, Skalka AM (1982) Retroviral DNA H structures: displacement-assimilation model of recombination. Cell 30: 53–62
  Article PubMed CAS Google Scholar
• Katz RA, Terry RW, Skalka AM (1986) A conserved _cis_-acting sequence in the 5′ leader of avian sarcoma virus RNA is required for packaging. J Virol 59: 163–167
  PubMed CAS PubMed Central Google Scholar
• Kawai S, Koyama T (1984) Characterization of a Rous sarcoma virus mutant defective in packaging its own genomic RNA: biological properties of mutant TK15 and mutant-induced transformants. J Virol 51: 147–153
  PubMed CAS PubMed Central Google Scholar
• Kiessling A, Crowell R, Connell R (1987) Sperm-associated retrovirus in the mouse epididymus. Proc Natl Acad Sci 84: 8667–8671
  Article PubMed CAS PubMed Central Google Scholar
• Koyama T, Harada F, Kawai S (1984) Characterization of a Rous sarcoma virus mutant defective in packaging its own genomic RNA: biochemical properties of mutant TK15 and mutant-induced‘transformants’. J Virol 51: 154–162
  PubMed CAS PubMed Central Google Scholar
• Leis J, Baltimore D, Bishop JM, Coffin J, Fleissner E, Goff SP, Oroszlan S, Robinson H, Skalka AM, Temin HM, Vogt VM (1988) Standardized and simplified nomenclature for proteins common to all retroviruses. J Virol 62: 1808–1809
  PubMed CAS PubMed Central Google Scholar
• Lever A, Gottlinger H, Haseltine W and Sodroski J (1989) Identification of a sequence required for efficient packaging of human immunodeficiency virus type 1 RNA into virions. J Vir 63: 4085–4087
  CAS Google Scholar
• Levin JG, Rosenak MJ (1976) Synthesis of murine leukemia virus proteins associated with virions assemble in actinomycin D-treated cells: evidence for persistence of viral messenger RNA. Proc Natl Acad Sci USA 73: 1154–1158
  Article PubMed CAS PubMed Central Google Scholar
• Levin JG, Seidman JG (1979) Selective packaging of host tRNAs by murine leukemia virus particles does not require genomic RNA. J Virol 29: 328–335
  PubMed CAS PubMed Central Google Scholar
• Levin JG, Grimley PM, Ramseur JM, Berezesky IK (1974) Deficiency on 60 to 70S RNA in murine leukemia virus particles assembled in cells treated with Actinomycin D. J Virol 14: 152–161
  PubMed CAS PubMed Central Google Scholar
• Linial M (1981) Transfer of defective avian tumor virus genomes by a Rous sarcoma virus RNA packaging mutant. J Virol 38: 380–382
  PubMed CAS PubMed Central Google Scholar
• Linial M (1987) Creation of a processed pseudogene by retroviral infection. Cell 49: 93–102
  Article PubMed CAS Google Scholar
• Linial M, Blair D (1984) Genetics of Retroviruses. In: Weiss R, Teich N, Varmus H, Coffin J (eds) RNA tumor viruses. Cold Spring Harbor Laboratory, Cold Spring Harbor, pp 650–783
  Google Scholar
• Linial M, Medeiros E, Hayward WS (1978) An avian oncovirus mutant (_SE_21Qlb) deficient in genomic RNA: biological and biochemical characterization. Cell 15: 1371–1381
  Article PubMed CAS Google Scholar
• Mann R, Baltimore D (1985) Varying the position of a retrovirus packaging sequence results in the encapsidation of both unspliced RNAs. J Virol 54: 401–407
  PubMed CAS PubMed Central Google Scholar
• Mann R, Mulligan RC, Baltimore D (1983) Construction of a retrovirus packaging mutant and its use to produce helper-free defective retrovirus. Cell 33: 153–159
  Article PubMed CAS Google Scholar
• Markowitz D, Goff S, Bank A (1988) A safe packaging line for gene transfer: separating viral genes on two different plasmids. J Virol 62: 1120–1124
  PubMed CAS PubMed Central Google Scholar
• Martin P, Henry C, Ferre F, Bechade C, Begue A, Calothy G, Debuire B, Stehelin D, Saule S (1986) Characterization of a myc-containing avian retrovirus generated by the propagation of an MH2 viral subgenomic RNA. J Virol 57: 1191–1194
  PubMed CAS PubMed Central Google Scholar
• Meric C, Darlix JL, Spahr PF (1984) It is Rous sarcoma virus p12 and not p19 that binds tightly to Rous sarcoma virus RNA. J Mol Biol 173: 531–538
  Article PubMed CAS Google Scholar
• Meric C, Goff SP (1989) Characterization of Moloney murine leukemia virus mutants with single-amino-acid substitutions in the Cys-his box of the nucleocapsid protein. J Vir 63: 1558–1568
  CAS Google Scholar
• Meric C, Spahr P-F (1986) Rous sarcoma virus nucleic acid-binding protein p12 is necessary for viral 70S RNA dimer formation and packaging. J Virol 60: 450–459
  PubMed CAS PubMed Central Google Scholar
• Miller AD, Buttimore C (1986) Redesign of retrovirus packaging cell lines to avoid recombination to helper virus production. Mol Cell Biol 6: 2895–2902
  PubMed CAS PubMed Central Google Scholar
• Miller AD, Verma IM (1984) Two base changes restore infectivity to a noninfectious molecular clone of Moloney murine leukemia virus (pMLV-1). J Virol 49: 214–222
  PubMed CAS PubMed Central Google Scholar
• Miller AD, Law MF, Verma IM (1985) Generation of helper-free amphotropic retroviruses that transduce a dominant-acting methotrexate-resistant DHFR gene. Mol Cell Biol 5: 431–437
  PubMed CAS PubMed Central Google Scholar
• Miller AD, Trauber DR, Buttimore C (1986) Factors involved in the production of helper virus-free retrovirus vectors. Somatic Cell Mol Genet 12: 175–183
  Article CAS Google Scholar
• Murphy J, Goff SP Construction and analysis of deletion mutations in the U5 region of Moloney murine leukemia virus: effects on RNA packaging and reverse transcription. J Vir 63: 319–327
  Google Scholar
• Nishizawa M, Koyama T, Kawai S (1985) Unusual feature of the leader sequence of Rous sarcoma virus packaging mutant TK15. J Virol 55: 881–885
  PubMed CAS PubMed Central Google Scholar
• Nishizawa M, Koyama T, Kawai S (1987) Frequent segregation of more defective variants from a Rous sarcoma virus packaging mutant TK15. J Virol 61: 3208–3213
  PubMed CAS PubMed Central Google Scholar
• Norton PA, Coffin JM (1985) Bacterial _β_-galactosidase as a marker of Rous sarcoma virus gene expression and replication. Mol Cell Biol 5: 281–290
  PubMed CAS PubMed Central Google Scholar
• Patschinsky T, Jansen HW, Blocker H, Frank R, Bister K (1986) Structure and transforming function of transduced mutant alleles of the chicken c_-myc_ gene. J Virol 59: 341–353
  PubMed CAS PubMed Central Google Scholar
• Peters GG, Hu J (1980) Reverse transcriptase as the major determinant for selected packaging of tRNAs into avian sarcoma virus particles. J Virol 36: 692–700
  PubMed CAS PubMed Central Google Scholar
• Pugatsch T, Stacey DW (1983) Identification of a sequence likely to be required for avian retroviral packaging. Virology 128: 505–511
  Article PubMed CAS Google Scholar
• Rodland KD, Brown AMC, Magun B (1987) Individual mouse VL30 elements transferred to rat cells by viral pseudotypes retain their responsiveness to activators of protein kinase C. Mol Cell Biol 7: 2296–2298
  PubMed CAS PubMed Central Google Scholar
• Sawyer RC, Hanafusa H (1979) Comparison of the small RNAs of polymerase-deficient and polymerase-positive Rous sarcoma virus and another species of avian retrovirus. J Virol 29: 863–871
  PubMed CAS PubMed Central Google Scholar
• Schwartzberg P, Colicelli J, Goff SP (1983) Deletion mutants of Moloney murine leukemia virus which lack glycosylated gag protein are replication competent. J Virol 46: 538–546
  PubMed CAS PubMed Central Google Scholar
• Scolnick EM, Vass WC, Howk RS, Duesberg PH (1979) Defective retrovirus-like 30S RNA species of rat and mouse cells are infectious if packaged by type C helper virus. J Virol 29: 964–972
  PubMed CAS PubMed Central Google Scholar
• Shank PR, Linial M (1980) Avian oncovirus mutant (SE21Q1b) deficient in genomic RNA: characterization of a deletion in the provirus. J Virol 36: 450–456
  PubMed CAS PubMed Central Google Scholar
• Sherwin SA, Rapp UR, Benveniste RE, Sen A, Todaro GJ (1978) Rescue of endogenous 30S retroviral sequences from mouse cells by baboon type C virus. J Virol 26: 257–264
  PubMed CAS PubMed Central Google Scholar
• Shimotohno K, Mizutani S, Temin HM (1980) Sequence of retrovirus provirus resembles that of bacterial transposable elements. Nature 285: 550–554
  Article PubMed CAS Google Scholar
• Shinnick TM, Lerner RA, Sutcliffe JG (1981) Nucleotide sequence of Moloney murine leukemia virus. Nature 293: 543–548
  Article PubMed CAS Google Scholar
• Sorge JD, Ricci W, Hughes SH (1983) _cis-_Acting RNA packaging locus in the 115-nucleotide direct repeat of Rous sarcoma virus. J Virol 48: 667–675
  PubMed CAS PubMed Central Google Scholar
• Sorge JD, Wright D, Erdman VD, Cutting AE (1984) Amphotropic retrovirus vector system for human cell gene transfer. Mol Cell Biol 4: 1730–1737
  PubMed CAS PubMed Central Google Scholar
• Stoker AW, Bissell MJ (1988) Development of avian sarcoma and leukosis virus-based vector-packaging cell lines. J Virol 62: 1008–1015
  PubMed CAS PubMed Central Google Scholar
• Stoltzfus CM, Kuhnert LK (1979) Evidence for the identity of shared 5′-terminal sequences between genomic RNA and subgenomic mRNAs of B77 avian sarcoma virus. J Virol 32: 536–545
  PubMed CAS PubMed Central Google Scholar
• Svoboda J, Dvorak M, Guntaka R, Geryk J (1986) Transmission of (LTR, v-src, LTR) without recombination with a helper virus. Virology 153: 314–317
  Article PubMed CAS Google Scholar
• Taylor JM, Cywinski A (1984) A defective retrovirus particle (SE21Q1b) packages and reverse transcribes cellular RNA, utilizing tRNA-like primers. J Virol 51: 267–271
  PubMed CAS PubMed Central Google Scholar
• Temin H (1985) Reverse transcription in the eukaryotic genome: retroviruses, pararetroviruses, retrotransposons and retranscripts. Mol Biol Evol 2: 455–468
  PubMed CAS Google Scholar
• Ullu E, Murphy S, Melli M (1982) Human 7SL RNA consists of a 140 nucleotide middle-repetitive sequence inserted in an Alu sequence. Cell 29: 195–202
  Article PubMed CAS Google Scholar
• Van Arsdell SW, Denison RA, Bernstein LB, Weiner AM Manser T, Gesteland RF (1981) Direct repeats flank three small nuclear RNA pseudogenes in the human genome. Cell 26: 11–17
  Article PubMed Google Scholar
• Varmus H, Swanstrom R (1984) Replication of Retroviruses. In: Weiss R, Teich N, Varmus H, Coffin J (eds) RNA tumor viruses. Cold Spring Harbor Laboratory, Cold Spring Harbor, pp 369–512
  Google Scholar
• Voynow S, Coffin JM (1985) Truncated _gag_-related proteins are produced by large deletion mutants of Rous sarcoma virus and form virus particles. J Virol 55: 79–85
  PubMed CAS PubMed Central Google Scholar
• Walter P, Blobel G (1982) Signal recognition particle contains a 7S RNA essential for protein translocation across the endoplasmic reticulum. Nature 288: 691–698
  Article Google Scholar
• Wang L-H, Stacey DW (1982) Participation of subgenomic retroviral mRNAs in recombination. J Virol 41: 919–930
  PubMed CAS PubMed Central Google Scholar
• Watanabe S, Temin HM (1979) Encapsidation sequences for spleen necrosis virus, an avian retrovirus, are between the 5′ long terminal repeat and the start of the gag gene. Proc Natl Acad Sci USA 79: 5986–5990
  Article Google Scholar
• Watanabe S, Temin HM (1983) Construction of a helper cell line for avian reticuloendotheliosis virus cloning vectors. Mol Cell Biol 3: 2241–2249
  PubMed CAS PubMed Central Google Scholar
• Weiner AM, Deininger PL, Efstratiadis A (1986) Nonviral retroposons: genes, pseudogenes, and transposable elements generated by the reverse flow of genetic information. Annu Rev Biochem 55: 631–661
  Article PubMed CAS Google Scholar
• Weiss R (1984) Experimental biology and assay of RNA tumor viruses. In: Weiss R, Teich N, Varmus H, Coffin J (eds) RNA tumor viruses. Cold Spring Harbor Laboratory, Cold Spring Harbor, pp 209–260
  Google Scholar