W. B. Dunham, W. J. Macneal: Culture on the Chick Chorio-allantois as a Test of Inactivation of Vaccinia Virus. In: J. Bacteriology, 1942, 44(4), S. 413–424, PMID 16560579
M. Uhler, S. Gard: Lipid content of standard and incomplete influenza A virus. In: Nature 1954, 173(4413), S. 1041–1042, PMID 13165714
L. H. Frommhagen, N. K. Freeman, C. A. Knight: The lipid constituents of influenza virus, chick allantoic membrane and sedimentable allantoic protein. In: Virology, 1958, 5(1), S. 173–175, PMID 13519759
L. L. Coriell, G. Rake et al.: Electron microscopy of herpes simplex. In: J Bacteriol., 1950, 59(1), S. 61–68, PMID 15400321
S. Brenner, R. W. Horne: A negative staining method for high resolution electron microscopy of viruses. In: Biochim. Biophys. Acta, 1959, 34, S. 103–110, PMID 13804200
D. Branton: Fracture faces of frozen membranes. In: PNAS, 1966, 55, S. 1048–1056, PMID 5334198
S. J. Singer, G. L. Nicholson: The fluid mosaic model of the structure of cell membranes. In: Science, 1972, 175, S. 720–731, PMID 4333397
J. W. Corran, W. C. Lewis: Lecithin and Cholesterol in Relation to the Physical Nature of Cell Membranes. In: Biochem J., 1924, 18(6), S. 1364–1370, PMID 16743417
R. P. Rand, V. Luzzati: X-ray diffraction study in water of lipids extracted from human erythrocytes: the position of cholesterol in the lipid lamellae. In: Biophys. J., 1968, 8(1), S. 125–137, PMID 5641398
J. P. Laliberte, L. W. McGinnes et al.: Integrity of membrane lipid rafts is necessary for the ordered assembly and release of infectious Newcastle disease virus particles. In: J. Virol. 2006, 80(21), S. 10652–10662, PMID 17041223
H. Imhoff, V. von Messling et al.: Canine distemper virus infection requires cholesterol in the viral envelope. In: J. Virology, 2007, 81(8), S. 4158–4165, PMID 17267508
S. Hambleton et al.: Cholesterol dependence of varicella-zoster virion entry into target cells. In: J. Virology, 2007, 81(14), S. 7548–7558, PMID 17494071
in molare Prozent umgerechnet aus: R. C. Aloia et al.: Lipid composition and fluidity of the human immunodeficiency virus. In: PNAS, 1988, 85(3), S. 900–904, PMID 2829209
berechnet aus Tabelle 1 und 4 in: O. Satoh et al.: Membrane structure of the hepatitis B virus surface antigen particle. In: J. Biochemistry Tokyo, 2000, 127(4), S. 543–550, PMID 10739944
G. van Meer, K. Simons: Viruses budding from either the apical or the basolateral plasma membrane domain of MDCK cells have unique phospholipid compositions. In: EMBO J., 1982, 1(7), S. 847–852, PMID 6329709
N. Chazal, D. Gerlier: Virus Entry, Assembly, Budding, and Membrane Rafts. In: Microbiol. Mol. Biol. Rev., 2003, 67(2), S. 226–237 (Review PMID 12794191)
B. A., G. Meyers: The pestivirus glycoprotein Erns is anchored in plane in the membrane via an amphipathic helix. In: J. Biol. Chem., 2007, E-pub, PMID 17848558
B. Rentier, E. L. Hooghe-Peters, M. Dubois-Dalcq: Electron microscopic study of measles virus infection: cell fusion and hemadsorption.J. Virol., 1978, 28(2), S. 567–577, PMID 722861
J. Torres, K. Parthasarathy et al.: Model of a putative pore: the pentameric alpha-helical bundle of SARS coronavirus E protein in lipid bilayers. In: Biophys. J., 2006, 91(3), S. 938–947, PMID 16698774
R. H. Cheng, R. J. Kuhn et al.: Nucleocapsid and glycoprotein organization in an enveloped virus. In: Cell, 1995, 80(4), S. 621–630, PMID 7867069
R. H. Vogel, S. W. Provencher et al.: Envelope structure of Semliki Forest virus reconstructed from cryo-electron micrographs. In: Nature, 1986, 320(6062), S. 533–535, PMID 3960136
C. H. von Bonsdorff, R. Pettersson: Surface structure of Uukuniemi virus. In: J. Virology, 1975, 16(5), S. 1296–1307, PMID 52726
C. Risco et al.: Endoplasmic reticulum-Golgi intermediate compartment membranes and vimentin filaments participate in vaccinia virus assembly. In: J. Virol., 2002, 76(4), S. 1839–1855, PMID 11799179
als Übersicht zur Virusreifung und Knospung siehe: H. Garoff, R. Hewson,D.-J. E. Opstelten: Virus maturation by budding. In: Microbiol. Mol. Biol. Rev., 1998, 62, S. 1171–1190, PMID 9841669
S. Tzlil, M. Deserno et al.: A statistical-thermodynamic model of viral budding. In: Biophys. J., 2004, 86(4), S. 2037–2048, PMID 15041646
D. M. Lerner, J. M. Deutsch, G. F. Oster: How does a virus bud?Biophys J., 1993, 65(1), S. 73–79, PMID 8369463
H. Garoff, K. Simons: Location of the spike glycoproteins in the Semliki Forest virus membrane. In: PNAS, 1974, 71(10), S. 3988–3992, PMID 4530279
M. Delchambre et al.: The GAG precursor of simian immunodeficiency virus assembles into virus-like particles. In: EMBO J., 1989, 8(9), S. 2653–2660, PMID 2684654
T. L. Cadd, U. Skoging, P. Liljeström: Budding of enveloped viruses from the plasma membrane. In: Bioessays, 1997, 19(11), S. 993–1000, PMID 9394621
D. Falke, R. Siegert, W. Vogell: Elektronenmikroskopische Befunde zur Frage der Doppelmembranbildung des Herpes-simplex-Virus. In: Arch Gesamte Virusforschung 1959, 9, S. 484–496, PMID 13821428
I. L. van Genderen, R. Brandimarti et al.: The phospholipid composition of extracellular herpes simplex virions differs from that of host cell nuclei. In: Virology, 1994, 200(2), S. 831–836, PMID 8178468
L. M. Stannard et al.: Electron microscopic study of the distribution of the Australia antigen in individual sera of 50 serologically positive blood donors and two patients with serum hepatitis. In: J. Clin. Pathol., 1973, 26(3), S. 209–216, PMID 4700502
CG Schüttler et al.: Variable ratio of hepatitis C virus RNA to viral core antigen in patient sera. In: J. Clin. Microbiol., 2004, 42(5), S. 1977–1981, PMID 15131157
F. Bonino, K. H. Heermann, M. Rizzetto, W. H. Gerlich: Hepatitis delta virus: protein composition of delta antigen and its hepatitis B virus-derived envelope. In: J. Virology, 1986, 58(3), S. 945–950, PMID 3701932
R. A. Crowther, N. A. Kiselev et al.: Three-dimensional structure of hepatitis B virus core particles determined by electron cryomicroscopy. In: Cell, 1994, 77(6), S. 943–950, PMID 8004680
E. L. Oleszak et al.: Molecular mimicry between Fc receptor and S peplomer protein of mouse hepatitis virus, bovine corona virus, and transmissible gastroenteritis virus. In: Hybridoma, 1995, 14(1), S. 1–8, PMID 7768529
Y. W. Hu et al.: Immunoglobulin mimicry by Hepatitis C Virus envelope protein E2. In: Virology, 2005, 332(2), S. 538–549, PMID 15680419
J. A. Quiroga et al.: Inhibition of albumin binding to hepatitis B virions by monoclonal antibody to the preS2 domain of the viral envelope. In: Digestion, 1987, 38(4), S. 212–220, PMID 2452108
P. F. Serres: Molecular mimicry between the trimeric ectodomain of the transmembrane protein of immunosuppressive lentiviruses (HIV-SIV-FIV) and interleukin 2. In: C R Acad. Sci. III, 2000, 323(11), S. 1019–1029, PMID 11144025
J. A. Briggs, T. Wilk, S. D. Fuller: Do lipid rafts mediate virus assembly and pseudotyping?J. General Virology, 2003, 84(Pt 4), S. 757–768 (Review PMID 12655075)
J. Dragunova et al.: Phenotypic mixing between vesicular stomatitis and Uukuniemi viruses. In: Acta Virol., 1986, 30(6), S. 512–514, PMID 2881472
W. R. Moorer: Antiviral activity of alcohol for surface disinfection.Int. J. Dent. Hyg., 2003) 1(3), S. 138–142 (Review PMID 16451513)
B. Horowitz et al.: Viral safety of solvent-detergent treated blood products. In: Dev. Biol. Stand., 1993, 81, S. 147–161 (Review PMID 8174797)
