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References

  • Achong, B.G., Mansell, P.W.A., Epstein, M.A., and Clifford, P. (1971) An unusual virus in cultures from a human nasopharyngeal carcinoma. J Natl Cancer Inst 46: 299307.
  • Duda, A., Stange, A., Lüftenegger, D., Stanke, N., Westphal, D., Pietschmann, T., et al. (2004) Prototype foamy virus envelope glycoprotein leader peptide processing is mediated by a furin-like cellular protease, but cleavage is not essential for viral infectivity. J Virol 78: 1386513870.
  • Duda, A., Lüftenegger, D., Pietschmann, T., and Lindemann, D. (2006) Characterization of the prototype foamy virus envelope glycoprotein receptor-binding domain. J Virol 80: 81588167.
  • Eastman, S.W., and Linial, M.L. (2001) Identification of a conserved residue of foamy virus Gag required for intracellular capsid assembly. J Virol 75: 68576864.
  • Epstein, M.A. (2004) Simian retroviral infections in human beings. Lancet 364: 138139; author reply 139–140.
  • Fischer, N., Heinkelein, M., Lindemann, D., Enssle, J., Baum, C., Werder, E., et al. (1998) Foamy virus particle formation. J Virol 72: 16101615.
  • Goepfert, P.A., Shaw, K., Wang, G., Bansal, A., Edwards, B.H., and Mulligan, M.J. (1999) An endoplasmic reticulum retrieval signal partitions human foamy virus maturation to intracytoplasmic membranes. J Virol 73: 72107217.
  • Heinkelein, M., Dressler, M., Jarmy, G., Rammling, M., Imrich, H., Thurow, J., et al. (2002) Improved primate foamy virus vectors and packaging constructs. J Virol 76: 37743783.
  • Herchenröder, O., Turek, R., Neumann Haefelin, D., Rethwilm, A., and Schneider, J. (1995) Infectious proviral clones of chimpanzee foamy virus (SFVcpz) generated by long PCR reveal close functional relatedness to human foamy virus. Virology 214: 685689.
  • Herchenröder, O., Moosmayer, D., Bock, M., Pietschmann, T., Rethwilm, A., Bieniasz, P.D., et al. (1999) Specific binding of recombinant foamy virus envelope protein to host cells correlates with susceptibility to infection. Virology 255: 228236.
  • Hill, C.L., Bieniasz, P.D., and McClure, M.O. (1999) Properties of human foamy virus relevant to its development as a vector for gene therapy. J Gen Virol 80: 20032009.
  • Ho, Y.P., Schnabel, V., Swiersy, A., Stirnnagel, K., and Lindemann, D. (2012) A small-molecule-controlled system for efficient pseudotyping of prototype foamy virus vectors. Mol Ther 20: 11671176.
  • Lecellier, C.H., Neves, M., Giron, M.L., Tobaly-Tapiero, J., and Saib, A. (2002) Further characterization of equine foamy virus reveals unusual features among the foamy viruses. J Virol 76: 72207227.
  • Lehmann-Che, J., Giron, M.L., Delelis, O., Löchelt, M., Bittoun, P., Tobaly-Tapiero, J., et al. (2005) Protease-dependent uncoating of a complex retrovirus. J Virol 79: 92449253.
  • Lehmann-Che, J., Renault, N., Giron, M.L., Roingeard, P., Clave, E., Tobaly-Tapiero, J., et al. (2007) Centrosomal latency of incoming foamy viruses in resting cells. PLoS Pathog 3: e74.
  • Life, R.B., Lee, E.G., Eastman, S.W., and Linial, M.L. (2008) Mutations in the amino terminus of foamy virus Gag disrupt morphology and infectivity but do not target assembly. J Virol 82: 61096119.
  • Lindemann, D., and Rethwilm, A. (2011) Foamy virus biology and its application for vector development. Viruses 3: 561585.
  • Lindemann, D., Pietschmann, T., Picard-Maureau, M., Berg, A., Heinkelein, M., Thurow, J., et al. (2001) A particle-associated glycoprotein signal peptide essential for virus maturation and infectivity. J Virol 75: 57625771.
  • Linial, M.L., Fan, H., Hahn, B., Löwer, R., Neil, J., Quackenbush, S., et al. (2005) Retroviridae. In Virus Taxonomy. Fauquet, C.M. , Mayo, M.A. , Maniloff, J. , Desselberger, U. , and Ball, L.A. (eds). London: Elsevier Academic Press, pp. 421440.
  • Liu, Y., Kim, Y.B., and Löchelt, M. (2011) N-terminally myristoylated feline foamy virus Gag allows Env-independent budding of sub-viral particles. Viruses 3: 22232237.
  • Mannigel, I., Stange, A., Zentgraf, H., and Lindemann, D. (2007) Correct capsid assembly mediated by a conserved YXXLGL motif in prototype foamy virus Gag is essential for infectivity and reverse transcription of the viral genome. J Virol 81: 33173326.
  • Mergia, A., and Heinkelein, M. (2003) Foamy virus vectors. Curr Top Microbiol Immunol 277: 131159.
  • Müllers, E., Uhlig, T., Stirnnagel, K., Fiebig, U., Zentgraf, H., and Lindemann, D. (2011) Novel functions of prototype foamy virus Gag glycine- arginine-rich boxes in reverse transcription and particle morphogenesis. J Virol 85: 14521463.
  • Nasimuzzaman, M., and Persons, D.A. (2012) Cell Membrane-associated heparan sulfate is a receptor for prototype foamy virus in human, monkey, and rodent cells. Mol Ther 20: 11581166.
  • Picard-Maureau, M., Jarmy, G., Berg, A., Rethwilm, A., and Lindemann, D. (2003) Foamy virus envelope glycoprotein-mediated entry involves a pH-dependent fusion process. J Virol 77: 47224730.
  • Pietschmann, T., Heinkelein, M., Heldmann, M., Zentgraf, H., Rethwilm, A., and Lindemann, D. (1999) Foamy virus capsids require the cognate envelope protein for particle export. J Virol 73: 26132621.
  • Pietschmann, T., Zentgraf, H., Rethwilm, A., and Lindemann, D. (2000) An evolutionarily conserved positively charged amino acid in the putative membrane-spanning domain of the foamy virus envelope protein controls fusion activity. J Virol 74: 44744482.
  • Plochmann, K., Horn, A., Gschmack, E., Armbruster, N., Krieg, J., Wiktorowicz, T., et al. (2012) Heparan sulfate is an attachment factor for foamy virus entry. J Virol 86: 1002810035.
  • Rethwilm, A. (2010) Molecular biology of foamy viruses. Med Microbiol Immunol 199: 197207.
  • Shaw, K.L., Lindemann, D., Mulligan, M.J., and Goepfert, P.A. (2003) Foamy virus envelope glycoprotein is sufficient for particle budding and release. J Virol 77: 23382348.
  • Stange, A., Mannigel, I., Peters, K., Heinkelein, M., Stanke, N., Cartellieri, M., et al. (2005) Characterization of prototype foamy virus gag late assembly domain motifs and their role in particle egress and infectivity. J Virol 79: 54665476.
  • Stange, A., Lüftenegger, D., Reh, J., Weissenhorn, W., and Lindemann, D. (2008) Subviral particle release determinants of prototype foamy virus. J Virol 82: 98589869.
  • Stanke, N., Stange, A., Lüftenegger, D., Zentgraf, H., and Lindemann, D. (2005) Ubiquitination of the prototype foamy virus envelope glycoprotein leader peptide regulates subviral particle release. J Virol 79: 1507415083.
  • Stirnnagel, K., Lüftenegger, D., Stange, A., Swiersy, A., Müllers, E., Reh, J., et al. (2010) Analysis of prototype foamy virus particle-host cell interaction with autofluorescent retroviral particles. Retrovirology 7: 45.
  • Stirnnagel, K., Schupp, D., Dupont, A., Kudryavtsev, V., Reh, J., Müllers, E., et al. (2012) Differential pH-dependent cellular uptake pathways among foamy viruses elucidated using dual-colored fluorescent particles. Retrovirology 9: 71.
  • Swiersy, A., Wiek, C., Reh, J., Zentgraf, H., and Lindemann, D. (2011) Orthoretroviral-like prototype foamy virus Gag-Pol expression is compatible with viral replication. Retrovirology 8: 66.
  • Wilk, T., de Haas, F., Wagner, A., Rutten, T., Fuller, S., Flügel, R.M., and Löchelt, M. (2000) The intact retroviral Env glycoprotein of human foamy virus is a trimer. J Virol 74: 28852887.
  • Yu, S.F., Eastman, S.W., and Linial, M.L. (2006) Foamy virus capsid assembly occurs at a pericentriolar region through a cytoplasmic targeting/retention signal in Gag. Traffic 7: 966977.
  • Zhadina, M., McClure, M.O., Johnson, M.C., and Bieniasz, P.D. (2007) Ubiquitin-dependent virus particle budding without viral protein ubiquitination. Proc Natl Acad Sci USA 104: 2003120036.