Terry P. Snutch

Affiliations: 
University of British Columbia, Vancouver, Vancouver, BC, Canada 
Area:
Neuroscience Biology, Animal Physiology Biology
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"Terry Snutch"
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Heather Guthrie grad student 2002 UBC
Sascha R.A. Alles post-doc 2016-2017 UBC

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Publications

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Marks WN, Zabder NK, Greba Q, et al. (2019) The T-type calcium channel blocker Z944 reduces conditioned fear in Genetic Absence Epilepsy Rats from Strasbourg and the Non-Epileptic Control strain. The European Journal of Neuroscience
Roebuck AJ, Marks WN, Liu MC, et al. (2018) Effects of the T-type calcium channel antagonist Z944 on paired associates learning and locomotor activity in rats treated with the NMDA receptor antagonist MK-801. Psychopharmacology
Marks WN, Parker ME, Zabder NK, et al. (2018) T-type calcium channels in the orbitofrontal cortex mediate sensory integration as measured using a spontaneous oddity task in rats. Learning & Memory (Cold Spring Harbor, N.Y.). 25: 317-324
Garcia-Caballero A, Zhang FX, Hodgkinson V, et al. (2018) T-type calcium channels functionally interact with spectrin (α/β) and ankyrin B. Molecular Brain. 11: 24
Alles SR, Garcia E, Balasubramanyan S, et al. (2018) Peripheral nerve injury increases contribution of L-type calcium channels to synaptic transmission in spinal lamina II: Role of α2δ-1 subunits. Molecular Pain. 14: 1744806918765806
Matschke LA, Rinné S, Snutch TP, et al. (2018) Calcium-activated SK potassium channels are key modulators of the pacemaker frequency in locus coeruleus neurons. Molecular and Cellular Neurosciences
Cain SM, Tyson JR, Choi HB, et al. (2018) Ca3.2 drives sustained burst-firing, which is critical for absence seizure propagation in reticular thalamic neurons. Epilepsia
Zhang Y, Ji H, Wang J, et al. (2018) Melatonin-mediated inhibition of Cav3.2 T-type Ca2+ channels induces sensory neuronal hypoexcitability through the novel protein kinase C-eta isoform. Journal of Pineal Research
Proft J, Rzhepetskyy Y, Lazniewska J, et al. (2017) The Cacna1h mutation in the GAERS model of absence epilepsy enhances T-type Ca(2+) currents by altering calnexin-dependent trafficking of Cav3.2 channels. Scientific Reports. 7: 11513
Cain SM, Garcia E, Waheed Z, et al. (2017) GABAB Receptors Suppress Burst-Firing in Reticular Thalamic Neurons. Channels (Austin, Tex.). 0
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