Model-based analysis of assembly kinetics for virus capsids or other spherical polymers.
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[1] K. Schwenke. Charles Tanford: The hydrophobic effect: Formation of micelles and biological membranes. 200 Seiten, zahlreiche Abb. und Tab., John Wiley & Sons, New York, London, Sydney, Toronto 1973. Preis: 7,90 £ , 1976 .
[2] E. Hiebert,et al. Formation of an infectious nucleoprotein from protein and nucleic acid isolated from a small spherical virus. , 1967, Virology.
[3] R. Markham,et al. A study of the self-assembly process in a small spherical virus. Formation of organized structures from protein subunits in vitro. , 1967, Virology.
[4] Charles Tanford,et al. The Hydrophobic Effect: Formation of Micelles and Biological Membranes , 1991 .
[5] A. Klug,et al. Physical principles in the construction of regular viruses. , 1962, Cold Spring Harbor symposia on quantitative biology.
[6] P. Hartman. Ordinary Differential Equations , 1965 .
[7] P. Wingfield,et al. Dimorphism of hepatitis B virus capsids is strongly influenced by the C-terminus of the capsid protein. , 1996, Biochemistry.
[8] S. Stahl,et al. A theoretical model successfully identifies features of hepatitis B virus capsid assembly. , 1999, Biochemistry.
[9] B. Rombaut,et al. New evidence for the precursor role of 14 S subunits in poliovirus morphogenesis. , 1990, Virology.
[10] K. Dill. Polymer principles and protein folding , 1999, Protein science : a publication of the Protein Society.
[11] S. Zhou,et al. A micromolar pool of antigenically distinct precursors is required to initiate cooperative assembly of hepatitis B virus capsids in Xenopus oocytes , 1993, Journal of virology.
[12] P. Butler,et al. Assembly of a spherical plant virus. , 1976, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.
[13] R. Bartenschlager,et al. Hepadnaviral assembly is initiated by polymerase binding to the encapsidation signal in the viral RNA genome. , 1992, The EMBO journal.
[14] S. Harrison,et al. Structure and assembly of turnip crinkle virus. I. X-ray crystallographic structure analysis at 3.2 A resolution. , 1986, Journal of molecular biology.
[15] B. Berger,et al. Local rules simulation of the kinetics of virus capsid self-assembly. , 1998, Biophysical journal.
[16] P. Sorger,et al. Structure and assembly of turnip crinkle virus. II. Mechanism of reassembly in vitro. , 1986, Journal of molecular biology.
[17] J. Murray,et al. Crystal structures of MS2 coat protein mutants in complex with wild-type RNA operator fragments. , 1998, Nucleic acids research.
[18] C. Bracker,et al. The effects of various polyanions on shell formation of some spherical viruses. , 1969, Virology.
[19] T. Baker,et al. In vitro assembly of cowpea chlorotic mottle virus from coat protein expressed in Escherichia coli and in vitro-transcribed viral cDNA. , 1995, Virology.
[20] C. Bracker,et al. The self-assembly of a nucleic-acid free pseudo-top component for a small spherical virus. , 1968, Virology.
[21] John E. Johnson,et al. Comparison of the native CCMV virion with in vitro assembled CCMV virions by cryoelectron microscopy and image reconstruction. , 1998, Virology.
[22] J. King,et al. Nucleation and growth phases in the polymerization of coat and scaffolding subunits into icosahedral procapsid shells. , 1993, Biophysical journal.
[23] V. Racaniello. Picornaviridae : the viruses and their replication , 2001 .
[24] R. Garcea,et al. Polymorphism in the assembly of polyomavirus capsid protein VP1. , 1989, Biophysical journal.
[25] S. Leibler,et al. Kinetics of self-assembling microtubules: an "inverse problem" in biochemistry. , 1996, Proceedings of the National Academy of Sciences of the United States of America.
[26] B Berger,et al. Local rule-based theory of virus shell assembly. , 1994, Proceedings of the National Academy of Sciences of the United States of America.
[27] A. Fersht. Structure and mechanism in protein science , 1998 .
[28] A. Zlotnick,et al. To build a virus capsid. An equilibrium model of the self assembly of polyhedral protein complexes. , 1994, Journal of molecular biology.
[29] A. Zlotnick,et al. Mechanism of capsid assembly for an icosahedral plant virus. , 2000, Virology.
[30] D L Caspar,et al. Movement and self-control in protein assemblies. Quasi-equivalence revisited. , 1980, Biophysical journal.
[31] Lorna J. Smith,et al. Understanding protein folding via free-energy surfaces from theory and experiment. , 2000, Trends in biochemical sciences.
[32] D. Filman,et al. Role and mechanism of the maturation cleavage of VP0 in poliovirus assembly: Structure of the empty capsid assembly intermediate at 2.9 Å resolution , 1994, Protein Science.
[33] A C Steven,et al. Virus Maturation Involving Large Subunit Rotations and Local Refolding , 2001, Science.
[34] O. Uhlenbeck,et al. Roles of operator and non-operator RNA sequences in bacteriophage R17 capsid assembly. , 1988, Journal of molecular biology.