REFERENCES
- Blondel D., Regad T., Poisson N., Pavie B., Harper F., Pandolfi P. P., et al. Rabies virus P and small P products interact directly with PML and reorganize PML nuclear bodies. Oncogene 2002; 21: 7957–7970
- Brzózka K., Finke S., Conzelmann K. K. Identification of the rabies virus alpha/beta interferon antagonist: Phosphoprotein P interferes with phosphorylation of interferon regulatory Factor 3. Journal of Virology 2005; 79: 7673–7681
- Brzózka K., Finke S., Conzelmann K. K. Inhibition of interferon signaling by rabies virus phosphoprotein P: Activation-dependent binding of STAT1 and STAT2. Journal of Virology 2006; 80: 2675–2683
- Castañeda N. Y., Chaparro-Olaya J., Castellanos J. E. Production and characterization of a polyclonal antibody against rabies virus phosphoprotein. Biomedica 2007; 27: 257–267
- Castellanos J. E., Martinez M., Acosta O., Hurtado H. Nerve growth factor and neurotrophin –3 modulate the rabies infection of adult sensory neurons in primary cultures. Brain Research 2000; 871: 120–126
- Castellanos J. E., Martinez M., Hurtado H., Kassis R., Bourhy H., Acosta O., et al. Study of antiviral effect of neurotrophins on rabies infected dorsal root ganglia cultures. Journal of Neuro Virolology 2005; 11: 403–410
- Jacob Y., Badrane H., Ceccaldi P., Tordo N. Cytoplasmic dynein LC8 interacts with lyssavirus phosphoprotein. Journal of Virology 2000; 74: 10217–10222
- Marters P. S., Banerjee A. K. Complex formation with vesicular stomatitis virus phosphoprotein NS prevents binding of nucleocapsid protein N to nonspecific RNA. Journal of Virology 1988; 62: 2658–2664
- Martínez-Gutiérrez M., Castellanos J. E. Morphological and biochemical characterization of sensory neurons infected with rabies virus in vitro. Acta Neuropatholologica (Berlin) 2007; 114: 263–269
- Mavrakis M., Iseni F., Mazza C., Schoehn G., Ebel C., Gentzel M., et al. Isolation and characterisation of the rabies virus N°-P complex produced in insect cells. Virology 2003; 305: 406–414
- Mavrakis M., Méhouas S., Real E., Iseni F., Blondel D., Tordo N., et al. Rabies virus chaperone: Identification of the fosfoprotein peptide that keeps nucleoprotein soluble and free from non-specific RNA. Virology 2006; 349: 422–429
- Pasdeloup D., Poisson N., Raux H., Gaudin Y., Ruigrok R., Blondel D. Nucleocytoplasmic shuttling of the rabies virus P protein requires a nuclear localization signal and a CRM1-dependent nuclear export signal. Virology 2005; 334: 284–293
- Peluso R. W., Moyer S. A. Viral proteins required for the in vitro replication of vesicular stomatitis virus defective interfering particle genome RNA. Virology 1988; 162: 369–376
- Real E., Rain J. C., Battaglia V., Jallet C., Perrin P., Tordo N., et al. Antiviral drug discovery strategy using combinatorial libraries of structurally constrained peptides. Journal of Virology 2004; 78: 7410–7417
- Rincón V., Corredor A., Martínez M., Castellanos J. E. Fluorometric cell-ELISA for quantifying rabies infection and heparin inhibition. Journal of Virological Methods 2005; 126: 158–165
- Toriumi H., Kawai A. Association of rabies virus nominal phosphoprotein (P) with viral nucleocapsid (NC) is enhanced by phosphorylation of the viral nucleoprotein (N). Microbiology and Immunology 2004; 48: 399–409
- Vidy A., Chelbi-Alix M., Blondel D. Rabies virus P protein interacts with STAT1 and inhibits interferon signal transduction pathways. Journal of Virology 2005; 79: 14411–14420