Abstract
The genomes of the autonomous parvoviruses are linear, single-strand DNA molecules of about 5100 base pairs (bp) and of minus polarity (complementary to mRNA). There are only minor length differences between parvovirus genomes of various mammalian species including those from mouse, hamster, rat, pig, and man. As will be discussed, genome similarity also extends to secondary structure, replicative intermediates, and, in a more limited sense, to the primary nucleotide sequence. Closely related parvoviruses of rodents additionally exhibit the ability to complement each other for several replicative processes (McMaster et al.,1981; Rhode, 1982), suggesting considerable functional conservation for both cis and trans acting elements. Bearing in mind that species variations do exist, it has been found thus far that all autonomous parvoviruses appear to share a common strategy for replicating their genomes. Therefore, although experimental data for a given structure or replicative process may exist for only one or two parvoviruses, they will be treated as characteristic of the entire virus subgroup.
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References
Astell, C.R., Smith, M., Chow, M.B., and Ward, D.C., 1979a, Structure of the 3’ hairpin termini of four rodent parvovirus genomes: Nucleotide sequence homology at origins of DNA replication, Cell 17: 691.
Astell, C.R., Smith, M., Chow, M.B., and Ward, D.C., 1979b, Sequence of the 3’-terminus of the genome from Kilham rat virus, a nondefective parvovirus, Virology 96: 669.
Astell, C.A., Thompson, M., Chow, M.B., and Ward, D.C., 1983, Structure and replication of minute virus of mice DNA, Cold Spring Harbor Symp. Quant. Biol. 47, in press.
Ben-Asher, E., Bratosin, E.S., and Aloni, Y., 1982, Intracellular DNA of the parvovirus minute virus of mice is organized in a minichromosome structure, J. Virol. 41: 1044.
Berns, K.I., and Hauswirth, W.W., 1978, Parvovirus DNA structure and replication, in: Replication of Mammalian Parvoviruses, ( D.C. Ward and P. Tattersall, eds.), pp. 13–32, Cold Spring Harbor. Laboratory, Cold Spring Harbor, New York.
Bourguignon, G.J., Tattersall, P.J., and Ward, D.C., 1976. DNA of minute virus of mice: Sell-priming, nonpermuted, single-stranded genome with a 5’-terminal hairpin duplex, J. Virol. 20: 290.
Bratosin, S., Laub, D., Tal, J., and Aloni, Y. 1979, Mechanism for circularization of linear DNAs: Circular parvovirus MVM DNA is formed by noose sliding in a lasso-like DNA structure, Proc. Natl. Acad. Sci. USA 76: 4289.
Chow, M.B., and Ward, D.C., 1978, Comparison of the terminal nucleotide structures in the DNA of nondefective parvoviruses, in: Replication of Mammalian Parvoviruses, ( D.C. Ward and P. Tattersall, eds.), pp. 205–217, Cold Spring Harbor Laboratory, Cold Spring Harbor, New York.
Crawford, L.V., 1966, A minute virus of mice, Virology 29: 605.
Crawford, L.V., Follett, E.A.C., Burdon, M.G., and McGeoch, D.J., 1969, The DNA of a minute virus of mice, J. Gen. Virol. 4: 37.
Danna, K.J., and Nathans, D., 1972, Bidirectional replication of simian virus 40 DNA. Proc. Natl. Acad. Sci. USA 69: 309.
Faust, E.A., and Ward, D.C., 1979, Incomplete genomes of the parvovirus minute virus of mice: Selective conservation of genome termini, including the origin for DNA replication. J. Virol. 32: 276.
Hauswirth, W.W., and Berns, K.I., 1977, Origin and termination of adeno-associated virus DNA replication, Virology 79: 488.
Hayward, G.S., Bujard, H., and Gunther, M., 1978, Three distinct replicative forms of Kilham-rat virus DNA, in: Replication of Mammalian Parvoviruses ( D.C. Ward and P. Tattersall, eds.), pp. 327–340, Cold Spring Harbor Laboratory, Cold Spring Harbor, New York.
Hirt, B., 1967, Selective extraction of polyoma DNA from mouse cell cultures, J. Mol. Biol. 26: 365.
Kollek, R., Tseng, B.T., and Goulian, M., 1982, DNA polymerase requirements for parvovirus H-1 DNA replication in vitro, J. Virol. 41: 982.
Li, A.T., Lavelle, G.C., and Tennant, R.W., 1978, DNA replication of Kilham rat virus: Characterization of intracellular forms of viral DNA extracted by guanidine hydrochloride, in Replication of Mammalian Parvoviruses ( D.C. Ward and P. Tattersall, eds.), pp. 341–354, Cold Spring Harbor Laboratory, Cold Spring Harbor, New York.
Linser, P., Brunning, H., and Armentrout, R.W., 1977, Specific binding sites for a parvovirus, minute virus of mice, on cultured mouse cells, J. Virol. 24: 211.
Linser, P. Brunning, H., and Armentrout, R.W., 1979, Uptake of minute virus of mice into cultured rodent cells, J. Virol. 31: 537.
McGeoch, D.J., Crawford, L.V., and Follett, E.A.C., 1970. The DNAs of three parvoviruses. J. Gen. Virol. 6: 33.
McMaster, G.K., Beard, P., Engers, H.E., and Hirt, B., 1981. Characterization of an immunosuppressive parvovirus related to the minute virus of mice, J. Virol. 38: 317.
Muller, H.P., Gautschi, M., and Siegl, G., 1978. Defective particles of parvovirus LulII, in: Replication of Mammalian Parvoviruses ( D.C. Ward and P. Tattersall, eds.), pp. 231–240, Cold Spring Harbor Laboratory, Cold Spring Harbor, New York.
Nordheim, A., Tesser, P., Azorin, F., Kwon, Y.A., Moller, A., and Rich. A., 1982, Isolation of Drosophila proteins that bind selectively to left-handed z-DNA, Proc. Natl. Acad. Sci. USA 79: 7729.
Pritchard, C., Stout, E.R., and Bates, R.C., 1981, Replication of parvoviral DNA I. Characterization of a nuclear lysate system. J. Virol. 37: 352.
Revie, D., Tseng, B.Y., Grafstom, R.H., and Goulian, M., 1979, Covalent association of protein with replicative form DNA of parvovirus H-1, Proc. Natl. Acad. Sci. USA 76: 5539.
Rhode, S.L., 1973, Replication of the parvovirus H-1. Kinetics in a parasynchronous cell system, 1. Virol. 11: 856.
Rhode, S.L., 1976, Replication process of the parvovirus H-l. V. Isolation and characterization of temperature-sensitive H-1 mutants defective in progeny DNA synthesis, J. Virol. 17: 659.
Rhode, S.L., 1977a, Replication process of the parvovirus H-1. VI. Characterization of a replication terminus of H-1 replicative-form DNA synthesis, J. Virol. 21: 694.
Rhode, S.L., 1977b, Replication process of the parvovirus H-1. IX. Physical mapping studies of the H-1 genome, J. Virol. 22: 446.
Rhode, S.L., 1978a, Replication process of the parvovirus H-1. X. Isolation of a mutant defective in replicative-form DNA replication, J. Virol. 25: 215.
Rhode, S.L., 1978b, Defective interfering particles of parvovirus H-1, J. Virol. 27: 347.
Rhode, S.L., and Klaassen, B., 1982, DNA sequence of the 5’-terminus containing the replication origin of parvovirus replicative form DNA, J. Virol. 41: 990.
Rhode, S.L., and Paradiso, P.R., 1983, Parvovirus genome: Nucleotide sequence of H-1 and mapping of its genes by hybrid arrest translation, J. Virol. 45: 173.
Richards, R.G., and Armentrout, R.W., 1979, Early events in parvovirus replication: Lack of integration by minute virus of mice into host cell DNA, J. Virol. 30: 397.
Richards, R., Lineer, P., and Armentrout, R.W., 1977, Kinetics of assembly of a parvovirus, minute virus of mice, in synchronized rat brain cells, J. Virol. 22: 778.
Richards, R., Linser, P., and Armentrout, R.W., 1978, Maturation of minute virus of mice particles in synchronized rat brain cells, in: Replication of Mammalian Parvoviruses ( D.C. Ward and P. Tattersall, eds.), pp. 447–458, Cold Spring Harbor Laboratory, Cold Spring Harbor, New York.
Salzman, L.A., 1977, Evidence for terminal S1-nuclease-resistant regions on single stranded linear DNA, Virology 76: 454.
Salzman, L A, and Fabisch, P., 1979, Nucleotide sequence of the self-priming 3’ terminus of the single stranded DNA extracted from the parvovirus KRV, J. Virol. 30: 946.
Salzman, L A, White, W.L., and Kakefuda, T., 1971, Linear, single-stranded DNA isolated from Kilham rat virus, J. Virol. 7: 830.
Salzman, L.A., White, W.L., and McKerlie, L., 1972, Growth characteristics of Kilham rat virus and its effect on cellular macromolecular synthesis, J. Virol. 10: 573.
Salzman, L A, Fabisch, P., Parr, R., Garon, C., and Wali, T., 1978, In vitro synthesis of double-stranded DNA from the Kilham rat virus single-stranded DNA genome, J. Virol. 27: 784.
Siegl, G., and Gautschi, M., 1973, The multiplication of parvovirus LulII in a synchronized culture system. I. Optimum conditions for virus replication, Arch. Gesamte Virusforsch. 40: 119.
Siegl, G., and Gautschi, M., 1978, Purification and properties of replicative-form and replicative-intermediate DNA molecules of parvovirus LullI, in Replication of Mammalian Parvoviruses ( D.C. Ward and P. Tattersall, eds.), pp. 315–325, Cold Spring Harbor Laboratory, Cold Spring Harbor, New York.
Singer, I.I., and Rhode, S.L., 1977, Replication process of the parvovirus H-1. VIII. Partial denaturation mapping and localization of the replication origin of H-1 replicative form DNA with electron microscopy, J. Virol. 21: 724.
Singer, I.I., and Rhode, S.L., 1978, Ultrastructural studies of H-1 parvovirus replication. VI. Simultaneous autoradiographic and immunochemical intranuclear localization of viral DNA synthesis and protein accumulation, J. Virol. 25: 349.
Tattersall, P., 1972, Replication of parvovirus MVM. I. Dependence of virus multiplication and plaque formation on cell growth, J. Virol. 10: 586.
Tattersall, P., 1978, Susceptibility to minute virus of mice as a function of host-cell differentiation, in: Replication of Mammalian Parvoviruses ( D.C. Ward and P. Tattersall, eds.), pp. 131–149, Cold Spring Harbor Laboratory, Cold Spring Harbor, New York.
Tattersall, P., and Ward, D.C., 1976, Rolling hairpin model for replication of parvovirus and linear chromosomal DNA, Nature (London) 263: 106.
Tennant, R.W., and Hand, R.E., Jr., 1970, Requirement of cellular synthesis for Kilham rat virus replication, Virology 42: 1054.
Tennant, R.W., Layman, K.R., and Hand, R.E., Jr., 1969, Effect of cell physiological state on infection by rat virus, J. Virol. 4: 872.
Tse, Y.-C, Kirkegaard, K., and Wang, J.C., 1980, Covalent bonds between protein and DNA. Formation of phosphotyrosine linkage between certain DNA topoisomerases and DNA, J. Biol. Chem. 255: 5560.
Wang, A.H.J., Quigley, G.J., Kolpak, F.J., Crawford, J.L., van Boom, J.H., vander Marel, G., and Rich, A., 1979, Molecular structure of a lefthanded double helical DNA fragment at atomic resolution, Nature (London) 282: 680.
Ward, D.C., and Dadachanji, D.K., 1978. Replication of minute virus of mice DNA, in: Replication of Mammalian Parvoviruses ( D.C. Ward and P. Tattersall, eds.), pp. 297–313, Cold Spring Harbor Laboratory, Cold Spring Harbor, New York.
Ward, P.C., and Tattersall, P.J., 1982, Minute viruses of mice, in: The Mouse in Biomedical Research, Vol. II, p. 313, Academic Press, Inc., New York.
Wolter, S., Richards, R., and Armentrout, R.W., 1980. Cell cycle-dependent replication of the DNA of minute virus of mice, a parvovirus, Biochem. Biophys. Acta 607: 420.
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Hauswirth, W.W. (1984). Autonomous Parvovirus DNA Structure and Replication. In: Berns, K.I. (eds) The Parvoviruses. The Viruses. Springer, Boston, MA. https://doi.org/10.1007/978-1-4684-8012-2_4
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DOI: https://doi.org/10.1007/978-1-4684-8012-2_4
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