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Much of our work here is aimed at understanding the molecular and structural underpinnings of the generation of cellular electricity. All such phenomena - from the nerve action potential, to sensory transduction, to control of processes as varied as muscle contraction, hormone secretion, or blood volume homeostasis - are ultimately mediated by a single class of membrane proteins: the ion channels. We seek to understand the molecular mechanisms by which ion channel proteins open and close to switch the flows of ions across cellular membranes, and by which the open pore is able to choose so exquisitely which ions are able to permeate. Cellular electrical behavior requires ion gradients across biological membranes, and these gradients must be established by energy-consuming "transporter" proteins, which move ions "uphill." Our group also studies the mechanisms of transporters.
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论文共 297 篇作者统计合作学者相似作者
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Christopher Miller,Yoosook Lee,M. Güler, Clarence J A C K ~o N, Shizhi Wang,Nupur Mittal, Benjamin Krummenacher, Liu H,Liu Cao, Anitha Kannan,Kedar Narayan, Sasipraba T., R. L.,Alexey Gurevich, Bahar Behsaz, K. D.,Hosein Mohimani
Carolina Digital Repository (University of North Carolina at Chapel Hill) (2023)
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#Papers: 296
#Citation: 14283
H-Index: 68
G-Index: 117
Sociability: 6
Diversity: 0
Activity: 0
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