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Research
Dr. DaZhi Wang's Lab Group
Research
Kunhua Song Lab
Led by Dr. Kunhua Song, the Song lab focuses on mechanistic studies of cardiovascular disease and therapeutics discovery.
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The exceptionally high reactivity of Cys 621 is critical for electrophilic activation of the sensory nerve ion channel TRPA1
Bahia, P. K., T. A. Parks, K. R. Stanford, and D. A. 2016. “The Exceptionally High Reactivity of Cys 621 Is Critical for Electrophilic Activation of the Sensory Nerve Ion Channel TRPA1”. J Gen Physiol 147: 451-65.
Contribution of tetrodotoxin-sensitive, voltage-gated sodium channels (Na(V)1) to action potential discharge from mouse esophageal tension mechanoreceptors
Hadley, S., M. J. Patil, N. Pavelkova, and Kollarik and. 2021. “Contribution of Tetrodotoxin-Sensitive, Voltage-Gated Sodium Channels (Na(V)1) to Action Potential Discharge from Mouse Esophageal Tension Mechanoreceptors”. Am J Physiol Regul Integr Comp Physiol 321: R672-r686.
Sensory nerve terminal mitochondrial dysfunction induces hyperexcitability in airway nociceptors via protein kinase C
Hadley, S. H., P. K. Bahia, and T. E. Taylor-Clark. 2014. “Sensory Nerve Terminal Mitochondrial Dysfunction Induces Hyperexcitability in Airway Nociceptors via Protein Kinase C”. Mol Pharmacol 85: 839-48.
Characterization of cardiovascular reflexes evoked by airway stimulation with allylisothiocyanate, capsaicin, and ATP in Sprague-Dawley rats
Hooper, J. S., S. H. Hadley, K. F. Morris, and J. W. 2016. “Characterization of Cardiovascular Reflexes Evoked by Airway Stimulation With Allylisothiocyanate, Capsaicin, and ATP in Sprague-Dawley Rats”. J Appl Physiol (1985) 120: 580-91.