Rabies virus as a transneuronal tracer of neuronal connections.
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[1] J. Delgado-García,et al. Neuronal Premotor Networks Involved in Eyelid Responses: Retrograde Transneuronal Tracing with Rabies Virus from the Orbicularis Oculi Muscle in the Rat , 2002, The Journal of Neuroscience.
[2] J. Sjöstrand,et al. Spread of herpes simplex virus in peripheral nerves , 2004, Acta Neuropathologica.
[3] R. W. Smith,et al. The herpes simplex virus ICP27 protein: a multifunctional post-transcriptional regulator of gene expression. , 2005, Biochemical Society transactions.
[4] J. Casals. INFLUENCE OF AGE FACTORS ON SUSCEPTIBILITY OF MICE TO RABIES VIRUS , 1940, The Journal of experimental medicine.
[5] G. Ugolini. Transneuronal Tracing with Alpha-herpesviruses: A Review of the Methodology , 1995 .
[6] S. Finke,et al. Inhibition of Interferon Signaling by Rabies Virus Phosphoprotein P: Activation-Dependent Binding of STAT1 and STAT2 , 2006, Journal of Virology.
[7] L. Enquist,et al. Protocols for gene transfer in neuroscience : towards gene therapy of neurological disorders , 1996 .
[8] Adonis Moschovakis,et al. Density gradients of trans‐synaptically labeled collicular neurons after injections of rabies virus in the lateral rectus muscle of the rhesus monkey , 2002, The Journal of comparative neurology.
[9] G. Aston-Jones,et al. Use of pseudorabies virus to delineate multisynaptic circuits in brain: opportunities and limitations , 2000, Journal of Neuroscience Methods.
[10] H. Koprowski,et al. Pathogenicity of Different Rabies Virus Variants Inversely Correlates with Apoptosis and Rabies Virus Glycoprotein Expression in Infected Primary Neuron Cultures , 1999, Journal of Virology.
[11] L. Morrison. The Toll of herpes simplex virus infection. , 2004, Trends in microbiology.
[12] Toshio Iijima,et al. Dual Transneuronal Tracing in the Rat Entorhinal-Hippocampal Circuit by Intracerebral Injection of Recombinant Rabies Virus Vectors , 2008, Front. Neuroanat..
[13] H. Kuypers,et al. Viruses as transneuronal tracers , 1990, Trends in Neurosciences.
[14] P. Strick,et al. Supplementary Motor Area and Presupplementary Motor Area: Targets of Basal Ganglia and Cerebellar Output , 2007, The Journal of Neuroscience.
[15] B. Kieffer,et al. Low‐affinity nerve‐growth factor receptor (P75NTR) can serve as a receptor for rabies virus , 1998, The EMBO journal.
[16] Z. Fu,et al. Rabies virus quasispecies: implications for pathogenesis. , 1998, Proceedings of the National Academy of Sciences of the United States of America.
[17] K. Fuxe,et al. From the Golgi–Cajal mapping to the transmitter-based characterization of the neuronal networks leading to two modes of brain communication: Wiring and volume transmission , 2007, Brain Research Reviews.
[18] K Fukaya,et al. [Rabies virus]. , 1997, Nihon rinsho. Japanese journal of clinical medicine.
[19] R. Lewis,et al. Difference in neuropathogenetic mechanisms in human furious and paralytic rabies , 2005, Journal of the Neurological Sciences.
[20] Xavier Martin,et al. Neuronal and transneuronal tracing in the trigeminal system of the rat using the herpes virus suis , 1983, Brain Research.
[21] G. Ugolini. Specificity of rabies virus as a transneuronal tracer of motor networks: Transfer from hypoglossal motoneurons to connected second‐order and higher order central nervous system cell groups , 1995, The Journal of comparative neurology.
[22] F. Superti,et al. Involvement of gangliosides in rabies virus infection. , 1986, The Journal of general virology.
[23] M. Lafon. Rabies virus receptors , 2008 .
[24] Werner Graf,et al. Mapping the oculomotor system: the power of transneuronal labelling with rabies virus , 2002, The European journal of neuroscience.
[25] G. H. Tignor,et al. Evidence from the anti-idiotypic network that the acetylcholine receptor is a rabies virus receptor , 1993, Journal of virology.
[26] K. Conzelmann,et al. Spread and pathogenic characteristics of a G-deficient rabies virus recombinant: an in vitro and in vivo study. , 2000, The Journal of general virology.
[27] Y. Gaudin. Rabies Virus-Induced Membrane Fusion Pathway , 2000, The Journal of cell biology.
[28] EthelwaldE Vella,et al. Rabies , 1897, The Lancet.
[29] M. Koltzenburg,et al. The Rabies Virus Glycoprotein Receptor p75NTR Is Not Essential for Rabies Virus Infection , 2007, Journal of Virology.
[30] H. Raux,et al. Interaction of the Rabies Virus P Protein with the LC8 Dynein Light Chain , 2000, Journal of Virology.
[31] M. Dolivo. A neurobiological approach to neurotropic viruses , 1980, Trends in Neurosciences.
[32] F. Cliquet,et al. Rabies diagnosis. , 1971, Developments in Biologicals.
[33] W. Graf,et al. Oculomotor Areas of the Primate Frontal Lobes: A Transneuronal Transfer of Rabies Virus and [14C]-2-Deoxyglucose Functional Imaging Study , 2004, The Journal of Neuroscience.
[34] E. Callaway. Transneuronal circuit tracing with neurotropic viruses , 2008, Current Opinion in Neurobiology.
[35] A. Loewy,et al. Viral vectors : gene therapy and neuroscience applications , 1995 .
[36] T. Mebatsion. Extensive Attenuation of Rabies Virus by Simultaneously Modifying the Dynein Light Chain Binding Site in the P Protein and Replacing Arg333 in the G Protein , 2001, Journal of Virology.
[37] P. Strick,et al. Macro-architecture of basal ganglia loops with the cerebral cortex: use of rabies virus to reveal multisynaptic circuits. , 2004, Progress in brain research.
[38] M. Schachner,et al. The Neural Cell Adhesion Molecule Is a Receptor for Rabies Virus , 1998, Journal of Virology.
[39] H. Tsiang. EVIDENCE FOR AN INTRAAXONAL TRANSPORT OF FIXED AND STREET RABIES VIRUS , 1979, Journal of neuropathology and experimental neurology.
[40] J. Gillet,et al. Inhibition of the Transport of Rabies Virus in the Central Nervous System , 1989, Journal of neuropathology and experimental neurology.
[41] H. Koprowski,et al. Direct entry of rabies virus into the central nervous system without prior local replication , 1991, Journal of virology.
[42] C. Rupprecht,et al. Human rabies: a disease of complex neuropathogenetic mechanisms and diagnostic challenges , 2002, The Lancet Neurology.
[43] B. Chain,et al. Understanding HSV‐1 entry glycoproteins , 2007, Reviews in medical virology.
[44] A. Kingsman,et al. Rabies virus glycoprotein pseudotyping of lentiviral vectors enables retrograde axonal transport and access to the nervous system after peripheral delivery. , 2001, Human molecular genetics.
[45] Werner Graf,et al. Posterior parietal cortex areas MIP and LIPv receive eye position and velocity inputs via ascending preposito‐thalamo‐cortical pathways , 2009, The European journal of neuroscience.
[46] J. Lanciego,et al. High-resolution neuroanatomical tract-tracing for the analysis of striatal microcircuits , 2008, Brain Research.
[47] S. Finke,et al. Identification of the Rabies Virus Alpha/Beta Interferon Antagonist: Phosphoprotein P Interferes with Phosphorylation of Interferon Regulatory Factor 3 , 2005, Journal of Virology.
[48] H. Kuypers,et al. Retrograde transneuronal transfer of Herpes simplex virus type 1 (HSV 1) from motoneurones , 1987, Brain Research.
[49] A. Jackson,et al. Overlap of pathology in paralytic rabies and axonal Guillain–Barré syndrome , 2005, Annals of neurology.
[50] P. Rollin,et al. Rabies virulence: effect on pathogenicity and sequence characterization of rabies virus mutations affecting antigenic site III of the glycoprotein , 1985, Journal of virology.
[51] A. Flamand,et al. Invasion of the peripheral nervous systems of adult mice by the CVS strain of rabies virus and its avirulent derivative AvO1 , 1989, Journal of virology.
[52] G. Ugolini,et al. Advances in viral transneuronal tracing , 2010, Journal of Neuroscience Methods.
[53] A. Strack,et al. Pseudorabies virus: a highly specific transneuronal cell body marker in the sympathetic nervous system , 1990, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[54] M. Dolivo,et al. Pathways of the early propagation of virulent and avirulent rabies strains from the eye to the brain , 1985, Journal of virology.
[55] G. Ugolini,et al. Spinal and brain circuits to motoneurons of the bulbospongiosus muscle: Retrograde transneuronal tracing with rabies virus , 1999, The Journal of comparative neurology.
[56] J. Trojanowski,et al. Differences in cell-to-cell spread of pathogenic and apathogenic rabies virus in vivo and in vitro , 1985, Journal of virology.
[57] A. Loewy. Pseudorabies Virus: A Transneuronal Tracer for Neuroanatomical Studies , 1995 .
[58] H. Wiśniewski,et al. Study on the propagation of Herpes simplex virus (type 2) into the brain after intraocular injection. , 1974, Brain research.
[59] W. Graf,et al. Horizontal eye movement networks in primates as revealed by retrograde transneuronal transfer of rabies virus: Differences in monosynaptic input to “slow” and “fast” abducens motoneurons , 2006, The Journal of comparative neurology.
[60] M. Lafon. Immune evasion, a critical strategy for rabies virus. , 2008, Developments in biologicals.
[61] Rabies virus infection: genetic mutations and the impact on viral pathogenicity and immunity. , 1987, Contributions to microbiology and immunology.
[62] M. Schnell,et al. Concepts in the pathogenesis of rabies. , 2008, Future virology.
[63] Dottie M. Clower,et al. Basal ganglia and cerebellar inputs to 'AIP'. , 2005, Cerebral cortex.
[64] P. Strick,et al. Subdivisions of primary motor cortex based on cortico-motoneuronal cells , 2009, Proceedings of the National Academy of Sciences.
[65] R. Lewis,et al. Pathophysiology of human paralytic rabies , 2005, Journal of NeuroVirology.
[66] J. Vega,et al. Distribution of p75 and trk-neurotrophin receptor proteins in adult human sympathetic ganglia , 1996, Anatomy and Embryology.
[67] G. Ugolini,et al. Use of rabies virus as a transneuronal tracer of neuronal connections: implications for the understanding of rabies pathogenesis. , 2008, Developments in biologicals.
[68] A. J. Rhodes,et al. Safety and immunogenicity of a vaccine bait containing ERA strain of attenuated rabies virus. , 1987, Canadian journal of veterinary research = Revue canadienne de recherche veterinaire.
[69] M. Lafon,et al. Up-regulation of Fas ligand (FasL) in the central nervous system: A mechanism of immune evasion by rabies virus , 2011, Journal of NeuroVirology.
[70] Xiaofeng Lu,et al. Somatotopically arranged inputs from putamen and subthalamic nucleus to primary motor cortex , 2006, Neuroscience Research.
[71] Pathogenesis of Rabies , 2005 .
[72] C. Rupprecht,et al. Characterization of a unique variant of bat rabies virus responsible for newly emerging human cases in North America. , 1996, Proceedings of the National Academy of Sciences of the United States of America.
[73] M. Schnell,et al. The dynein light chain 8 binding motif of rabies virus phosphoprotein promotes efficient viral transcription , 2007, Proceedings of the National Academy of Sciences.
[74] H. Koprowski,et al. Effect of rabies virus infection on gene expression in mouse brain , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[75] H. Clark,et al. Cell to cell transmission of virus in the central nervous system. II. Experimental rabies in mouse. , 1975, Laboratory investigation; a journal of technical methods and pathology.
[76] D. Blondel,et al. The Nucleocytoplasmic Rabies Virus P Protein Counteracts Interferon Signaling by Inhibiting both Nuclear Accumulation and DNA Binding of STAT1 , 2007, Journal of Virology.
[77] E. Lycke,et al. Rabies virus infection of cultured rat sensory neurons , 1987, Journal of virology.
[78] M. Schnell,et al. The application of reverse genetics technology in the study of rabies virus (RV) pathogenesis and for the development of novel RV vaccines , 2011, Journal of NeuroVirology.
[79] R. Ruigrok,et al. Rabies virus glycoprotein is a trimer , 1992, Virology.
[80] L. Astic,et al. Spread of the CVS strain of rabies virus and of the avirulent mutant AvO1 along the olfactory pathways of the mouse after intranasal inoculation , 1991, Virology.
[81] S. Finke,et al. Replication strategies of rabies virus. , 2005, Virus research.
[82] A. Jackson,et al. Experimental rabies virus infection of p75 neurotrophin receptor-deficient mice , 1999, Acta Neuropathologica.
[83] M. Lafon,et al. Apoptosis and rabies virus neuroinvasion. , 2003, Biochimie.
[84] N. Tordo,et al. Cytoplasmic Dynein LC8 Interacts with Lyssavirus Phosphoprotein , 2000, Journal of Virology.
[85] K. Kristensson,et al. Neuron to neuron transmission of herpes simplex virus Transport of virus from skin to brainstem nuclei , 1982, Journal of the Neurological Sciences.
[86] W. Graf,et al. Cerebellar inputs to intraparietal cortex areas LIP and MIP: functional frameworks for adaptive control of eye movements, reaching, and arm/eye/head movement coordination. , 2010, Cerebral cortex.
[87] T. Lentz,et al. Is the acetylcholine receptor a rabies virus receptor? , 1982, Science.
[88] P. Strick,et al. The cerebellum communicates with the basal ganglia , 2005, Nature Neuroscience.
[89] S. Finke,et al. Highly stable expression of a foreign gene from rabies virus vectors. , 1996, Proceedings of the National Academy of Sciences of the United States of America.
[90] P. Yager,et al. A rapid reproducible test for determining rabies neutralizing antibody. , 1973, Bulletin of the World Health Organization.
[91] S. Shuangshoti,et al. Mechanisms of escape phenomenon of spinal cord and brainstem in human rabies , 2005, BMC infectious diseases.
[92] D. Montefiori,et al. Rabies virus-based vaccines elicit neutralizing antibodies, poly-functional CD8+ T cell, and protect rhesus macaques from AIDS-like disease after SIV(mac251) challenge. , 2009, Vaccine.
[93] A. Sabin. Progression of Different Nasally Instilled Viruses along Different Nervous Pathways in the Same Host , 1938 .
[94] K. Conzelmann,et al. Budding of Rabies Virus Particles in the Absence of the Spike Glycoprotein , 1996, Cell.
[95] P. Strick,et al. Rabies as a transneuronal tracer of circuits in the central nervous system , 2000, Journal of Neuroscience Methods.
[96] M. Schnell,et al. The Glycoprotein and the Matrix Protein of Rabies Virus Affect Pathogenicity by Regulating Viral Replication and Facilitating Cell-to-Cell Spread , 2007, Journal of Virology.
[97] P. Strick,et al. Muscle representation in the macaque motor cortex: an anatomical perspective. , 2006, Proceedings of the National Academy of Sciences of the United States of America.
[98] F. Murphy,et al. Early street rabies virus infection in striated muscle and later progression to the central nervous system. , 1974, Intervirology.
[99] N. Tordo,et al. Molecular epidemiology of rabies virus in France: comparison with vaccine strains. , 1992, The Journal of general virology.
[100] G. Ugolini,et al. Role of essential glycoproteins gII and gp50 in transneuronal transfer of pseudorabies virus from the hypoglossal nerves of mice , 1993, Journal of virology.
[101] H. Koprowski,et al. Differential expression of growth factors at the cellular level in virus-infected brain , 2003, Proceedings of the National Academy of Sciences of the United States of America.
[102] A. Greco,et al. Translational control of viral and host protein synthesis during the course of herpes simplex virus type 1 infection: evidence that initiation of translation is the limiting step. , 1998, The Journal of general virology.
[103] T. Ruigrok,et al. Multiple cerebellar zones are involved in the control of individual muscles: a retrograde transneuronal tracing study with rabies virus in the rat , 2008, The European journal of neuroscience.
[104] Xiaofeng Lu,et al. Organization of Multisynaptic Inputs from Prefrontal Cortex to Primary Motor Cortex as Revealed by Retrograde Transneuronal Transport of Rabies Virus , 2005, The Journal of Neuroscience.
[105] L. Enquist,et al. Innervation of the heart and its central medullary origin defined by viral tracing. , 1994, Science.
[106] P. Rollin,et al. Molecular basis of rabies virus virulence. II. Identification of a site on the CVS glycoprotein associated with virulence. , 1983, The Journal of general virology.
[107] E. Lycke,et al. Rabies virus infection and transport in human sensory dorsal root ganglia neurons. , 1991, The Journal of general virology.
[108] P. Strick,et al. Cerebellar Loops with Motor Cortex and Prefrontal Cortex of a Nonhuman Primate , 2003, The Journal of Neuroscience.
[109] C. Marra,et al. Infections of the central nervous system. , 1991, Advances in internal medicine.
[110] J. Lanciego,et al. Changes to interneuron-driven striatal microcircuits in a rat model of Parkinson's disease , 2009, Neurobiology of Disease.
[111] K. Conzelmann. Genetic manipulation of non-segmented negative-strand RNA viruses. , 1996, The Journal of general virology.
[112] K. Charlton,et al. The distribution of challenge virus standard rabies virus versus skunk street rabies virus in the brains of experimentally infected rabid skunks , 2004, Acta Neuropathologica.
[113] G. Ugolini. Transneuronal transfer of herpes simplex virus type 1 (HSV 1) from mixed limb nerves to the CNS. I. Sequence of transfer from sensory, motor, and sympathetic nerve fibres to the spinal cord , 1992, The Journal of comparative neurology.
[114] S. Modrow,et al. Pathogenesis , 2013, Molecular Virology.
[115] A. Loewy,et al. Central Command Neurons of the Sympathetic Nervous System: Basis of the Fight-or-Flight Response , 1995, Science.
[116] Ian R. Wickersham,et al. Retrograde neuronal tracing with a deletion-mutant rabies virus , 2007, Nature Methods.
[117] S. Finke,et al. Double-Labeled Rabies Virus: Live Tracking of Enveloped Virus Transport , 2007, Journal of Virology.
[118] A. Loewy,et al. Transneuronal labeling of spinal interneurons and sympathetic preganglionic neurons after pseudorabies virus injections in the rat medial gastrocnemius muscle , 1992, Brain Research.
[119] Charlton Km,et al. Experimental rabies in skunks: immunofluorescence light and electron microscopic studies. , 1979 .
[120] K. Conzelmann. Transcriptional Activation of Alpha/Beta Interferon Genes: Interference by Nonsegmented Negative-Strand RNA Viruses , 2005, Journal of Virology.
[121] Nobutaka Hirokawa,et al. Molecular motors and mechanisms of directional transport in neurons , 2005, Nature Reviews Neuroscience.
[122] J. Luby. Infections of the Central Nervous System, 3rd ed , 2005 .
[123] Deepak N. Pandya,et al. Classic and Contemporary Neural Tract-Tracing Techniques , 2009 .
[124] C. Wirblich,et al. The cell biology of rabies virus: using stealth to reach the brain , 2010, Nature Reviews Microbiology.
[125] C. Smith,et al. Characterization of an antigenic determinant of the glycoprotein that correlates with pathogenicity of rabies virus. , 1983, Proceedings of the National Academy of Sciences of the United States of America.
[126] O. Teague,et al. Transmission of the Virus of Herpes Febrilis along Nerves in experimentally infected Rabbits. , 1923, The Journal of medical research.
[127] J. Card,et al. Spatiotemporal responses of astrocytes, ramified microglia, and brain macrophages to central neuronal infection with pseudorabies virus , 1993, The Journal of neuroscience : the official journal of the Society for Neuroscience.