William A. Catterall
Affiliations: | University of Washington, Seattle, Seattle, WA |
Area:
Calcium channelsGoogle:
"William Catterall"Mean distance: 13.58 (cluster 11) | S | N | B | C | P |
Children
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Sign in to add collaboratorMarc D. Binder | collaborator | University of Washington | |
Rory Curtis | collaborator | Wahington University | |
Immaculada Silos-Santiago | collaborator | Vertex Pharmaceuticals | |
Terrance P. Snutch | collaborator | 1986-1996 | UBC |
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Publications
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Eltokhi A, Lundstrom BN, Li J, et al. (2024) Pathogenic gating pore current conducted by autism-related mutations in the Na1.2 brain sodium channel. Proceedings of the National Academy of Sciences of the United States of America. 121: e2317769121 |
Tonggu L, Wisedchaisri G, Gamal El-Din TM, et al. (2024) Dual receptor-sites reveal the structural basis for hyperactivation of sodium channels by poison-dart toxin batrachotoxin. Nature Communications. 15: 2306 |
Alexander SPH, Mathie AA, Peters JA, et al. (2023) The Concise Guide to PHARMACOLOGY 2023/24: Ion channels. British Journal of Pharmacology. S145-S222 |
Catterall WA. (2023) Voltage gated sodium and calcium channels: Discovery, structure, function, and Pharmacology. Channels (Austin, Tex.). 17: 2281714 |
Wisedchaisri G, Gamal El-Din TM, Powell NM, et al. (2023) Structural basis for severe pain caused by mutations in the voltage sensors of sodium channel NaV1.7. The Journal of General Physiology. 155 |
Eltokhi A, Catterall WA, Gamal El-Din TM. (2023) Cell-cycle arrest at the G1/S boundary enhances transient voltage-gated ion channel expression in human and insect cells. Cell Reports Methods. 3: 100559 |
Wisedchaisri G, Gamal El-Din TM, Zheng N, et al. (2023) Structural basis for severe pain caused by mutations in the S4-S5 linkers of voltage-gated sodium channel Na1.7. Proceedings of the National Academy of Sciences of the United States of America. 120: e2219624120 |
Hovey L, Guo X, Chen Y, et al. (2023) Impairment of β-adrenergic regulation and exacerbation of pressure-induced heart failure in mice with mutations in phosphoregulatory sites in the cardiac Ca1.2 calcium channel. Frontiers in Physiology. 14: 1049611 |
Martín-Aragón Baudel M, Flores-Tamez VA, Hong J, et al. (2022) Spatiotemporal Control of Vascular Ca1.2 by α1 S1928 Phosphorylation. Circulation Research |
Hovey L, Gamal El-Din TM, Catterall WA. (2022) Convergent regulation of Ca1.2 channels by direct phosphorylation and by the small GTPase RAD in the cardiac fight-or-flight response. Proceedings of the National Academy of Sciences of the United States of America. 119: e2208533119 |