Vladimir Yarov-Yarovoy
Affiliations: | University of California, Davis, Davis, CA |
Area:
Ion channels, membrane proteins, computational protein structure prediction and designGoogle:
"Vladimir Yarov-Yarovoy"
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Publications
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| Maly J, Emigh AM, DeMarco KR, et al. (2022) Structural modeling of the hERG potassium channel and associated drug interactions. Frontiers in Pharmacology. 13: 966463 |
| Mazola Y, Márquez Montesinos JCE, Ramírez D, et al. (2022) Common Structural Pattern for Flecainide Binding in Atrial-Selective K1.5 and Na1.5 Channels: A Computational Approach. Pharmaceutics. 14 |
| George K, Lopez-Mateos D, Abd El-Aziz TM, et al. (2022) Structural and Functional Characterization of a Novel Scorpion Toxin that Inhibits Na1.8 via Interactions With the DI Voltage Sensor and DII Pore Module. Frontiers in Pharmacology. 13: 846992 |
| Pumroy RA, Protopopova AD, Fricke TC, et al. (2022) Structural insights into TRPV2 activation by small molecules. Nature Communications. 13: 2334 |
| Nguyen PT, Yarov-Yarovoy V. (2022) Towards Structure-Guided Development of Pain Therapeutics Targeting Voltage-Gated Sodium Channels. Frontiers in Pharmacology. 13: 842032 |
| Ledford HA, Park S, Muir D, et al. (2020) Different arrhythmia-associated calmodulin mutations have distinct effects on cardiac SK channel regulation. The Journal of General Physiology. 152 |
| Yang F, Xu L, Lee BH, et al. (2020) An Unorthodox Mechanism Underlying Voltage Sensitivity of TRPV1 Ion Channel. Advanced Science (Weinheim, Baden-Wurttemberg, Germany). 7: 2000575 |
| Li G, Woltz RL, Wang CY, et al. (2020) Gating Properties of Mutant Sodium Channels and Responses to Sodium Current Inhibitors Predict Mexiletine-Sensitive Mutations of Long QT Syndrome 3. Frontiers in Pharmacology. 11: 1182 |
| Fletcher-Taylor S, Thapa P, Sepela RJ, et al. (2020) Distinguishing Potassium Channel Resting State Conformations in Live Cells with Environment-Sensitive Fluorescence. Acs Chemical Neuroscience |
| Perez-Flores MC, Lee JH, Park S, et al. (2020) Cooperativity of K7.4 channels confers ultrafast electromechanical sensitivity and emergent properties in cochlear outer hair cells. Science Advances. 6: eaba1104 |