0B68 O'Leary, Michael E. - Thomas Jefferson University - Thomas Jefferson University
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Michael E. O'Leary, PhD

Contact Dr. O'Leary

1020 Locust Street
Jefferson Alumni Hall, Suite 265
Philadelphia, PA 19107

(215) 503-9983

Most Recent Peer-reviewed Publications

  1. Modulation of peripheral Na+ channels and neuronal firing by n-butyl-p-aminobenzoate
  2. Differential expression of sodium channel β subunits in dorsal root ganglion sensory neurons
  3. Modulation of Kv3.4 channel N-type inactivation by protein kinase C shapes the action potential in dorsal root ganglion neurons
  4. Regulatory role of voltage-gated Na+ channel β subunits in sensory neurons
  5. Regulation of Nav1.6 and Nav1.8 peripheral nerve Na+ channels by auxiliary β-subunits
  6. Single-cell analysis of sodium channel expression in dorsal root ganglion neurons
  7. Y1767C, a novel SCN5A mutation, induces a persistent Na+ current and potentiates ranolazine inhibition of Nav1.5 channels
  8. Role of voltage-gated sodium, potassium and calcium channels in the development of cocaine-associated cardiac arrhythmias
  9. Lidocaine promotes the trafficking and functional expression of Na v1.8 sodium channels in mammalia 1188 n cells
  10. Inhibition of the A-type K+ channels of dorsal root ganglion neurons by the long-duration anesthetic butamben
  11. State-dependent trapping of flecainide in the cardiac sodium channel
  12. Closing and Inactivation Potentiate the Cocaethylene Inhibition of Cardiac Sodium Channels by Distinct Mechanisms
  13. Kv1.1 channels of dorsal root ganglion neurons are inhibited by n-butyl-p-aminobenzoate, a promising anesthetic for the treatment of chronic pain
  14. Cocaine binds to a common site on open and inactivated human heart (Nav 1.5) sodium channels
  15. Inhibition of HERG potassium channels by cocaethylene: A metabolite of cocaine and ethanol
  16. Gating properties of Nav1.7 and Nav1.8 peripheral nerve sodium channels
  17. Inhibition of human ether-a-go-go potassium channels by cocaine
  18. Characterization of the isoform-specific differences in the gating of neuronal and muscle sodium channels
  19. A molecular link between activation and inactivation of sodium channels
  20. Internal block of human heart sodium channels by symmetrical tetra- alkylammoniums
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