Rabies Virus CVS-N2cΔG Strain Enhances Retrograde Synaptic Transfer and Neuronal Viability

@article{Reardon2016RabiesVC,
  title={Rabies Virus CVS-N2cΔG Strain Enhances Retrograde Synaptic Transfer and Neuronal Viability},
  author={Thomas R. Reardon and Andrew James Murray and Gergely F. T{\'u}ri and Christoph Wirblich and Katherine R. Croce and Matthias J Schnell and Thomas M. Jessell and Attila Losonczy},
  journal={Neuron},
  year={2016},
  volume={89},
  pages={711-724}
}
Virally based transsynaptic tracing technologies are powerful experimental tools for neuronal circuit mapping. The glycoprotein-deletion variant of the SAD-B19 vaccine strain rabies virus (RABV) has been the reagent of choice in monosynaptic tracing, since it permits the mapping of synaptic inputs to genetically marked neurons. Since its introduction, new helper viruses and reagents that facilitate complementation have enhanced the efficiency of SAD-B19(ΔG) transsynaptic transfer, but there has… CONTINUE READING
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Cell-Type-Specific Circuit Connectivity of Hippocampal CA1 Revealed through Cre-Dependent Rabies Tracing

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  • Cell Rep
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