Tyler W. Dunn
Tyler W. Dunn
Montreal Neurological Institute, McGill University
Verified email at mcgill.ca
Title
Cited by
Cited by
Year
In vitro characterization of L-type calcium channels and their contribution to firing behavior in invertebrate respiratory neurons
JD Spafford, T Dunn, AB Smit, NI Syed, GW Zamponi
Journal of neurophysiology 95 (1), 42-52, 2006
432006
PKC differentially translocates during spaced and massed training in Aplysia
CA Farah, D Weatherill, TW Dunn, WS Sossin
Journal of Neuroscience 29 (33), 10281-10286, 2009
352009
Compartment‐specific, differential regulation of eukaryotic elongation factor 2 and its kinase within Aplysia sensory neurons
DB Weatherill, PK McCamphill, E Pethoukov, TW Dunn, X Fan, WS Sossin
Journal of neurochemistry 117 (5), 841-855, 2011
322011
When to bee social: interactions among environmental constraints, incentives, guarding, and relatedness in a facultatively social carpenter bee
T Dunn, MH Richards
Behavioral Ecology 14 (3), 417-424, 2003
302003
Regulation of protein kinase C Apl II by serotonin receptors in Aplysia
I Nagakura, TW Dunn, CA Farah, A Heppner, FF Li, WS Sossin
Journal of neurochemistry 115 (4), 994-1006, 2010
282010
Synaptic modulation by a Drosophila neuropeptide is motor neuron-specific and requires CaMKII activity
TW Dunn, AJ Mercier
Peptides 26 (2), 269-276, 2005
212005
A PKM generated by calpain cleavage of a classical PKC is required for activity-dependent intermediate-term facilitation in the presynaptic sensory neuron of Aplysia
CA Farah, MH Hastings, TW Dunn, K Gong, D Baker-Andresen, ...
Learning & Memory 24 (1), 1-13, 2017
142017
Synaptic modulation by a neuropeptide depends on temperature and extracellular calcium
TW Dunn, AJ Mercier
Journal of neurophysiology 89 (4), 1807-1814, 2003
132003
Inhibition of the Aplysia sensory neuron calcium current with dopamine and serotonin
TW Dunn, WS Sossin
Journal of neurophysiology 110 (9), 2071-2081, 2013
112013
Inhibitory responses in Aplysia pleural sensory neurons act to block excitability, transmitter release, and PKC Apl II activation
TW Dunn, CA Farah, WS Sossin
Journal of neurophysiology 107 (1), 292-305, 2012
102012
Ryanodine receptor–transmitter release site coupling increases quantal size in a synapse‐specific manner
TW Dunn, NI Syed
European Journal of Neuroscience 24 (6), 1591-1605, 2006
102006
Serotonin modulates transmitter release at central Lymnaea synapses through a G‐protein‐coupled and cAMP‐mediated pathway
PK McCamphill, TW Dunn, NI Syed
European Journal of Neuroscience 27 (8), 2033-2042, 2008
92008
Activity‐induced large amplitude postsynaptic mPSPs at soma–soma synapses between Lymnaea neurons
TW Dunn, PK McCamphill, NI Syed
Synapse 63 (2), 117-125, 2009
42009
The Ca V 2α1 EF-hand F helix tyrosine, a highly conserved locus for GPCR inhibition of Ca V 2 channels
TW Dunn, X Fan, AR Ase, P Séguéla, WS Sossin
Scientific reports 8 (1), 3263, 2018
32018
Decline in the Recovery from Synaptic Depression in Heavier Aplysia Results from Decreased Serotonin-Induced Novel PKC Activation
TW Dunn, WS Sossin
PloS one 10 (8), e0136907, 2015
32015
An action potential‐induced and ryanodine sensitive calcium transient dynamically regulates transmitter release at synapses between Lymnaea neurons
TW Dunn, EA Montgomery, NI Syed
Synapse 63 (1), 61-68, 2009
22009
A role for Numb in Protein kinase M (PKM)‐mediated increase in surface AMPA receptors during facilitation in Aplysia
CA Farah, TW Dunn, MH Hastings, L Ferguson, C Gao, K Gong, ...
Journal of neurochemistry, 2019
2019
Exploring Mechanisms of Synaptic Plasticity Using Exogenous Expression of Proteins at the Sensory-to-Motor Neuron Synapse of Aplysia
DB Weatherill, TW Dunn, PK McCamphill, WS Sossin
Multidisciplinary Tools for Investigating Synaptic Plasticity, 61-91, 2013
2013
Ryanodine Receptor-mediated Neurotransmitter Release Synchronization Alters the Function of the Chemical Synapse
TW Dunn
ProQuest, 2007
2007
Mechanisms of synaptic modulation by neuropeptides in crayfish and drosophila
TW Dunn
Brock University, 2003
2003
The system can't perform the operation now. Try again later.
Articles 1–20