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Shockley-Ramo theorem measures conformation changes of ion channels and proteins
Journal article   Peer reviewed

Shockley-Ramo theorem measures conformation changes of ion channels and proteins

Bob Eisenberg and Wolfgang Nonner
Journal of computational electronics, Vol.6(1), pp.363-365
2007-09
DOI: https://doi.org/10.1007/s10825-006-0130-6

Abstract

Appl.Mathematics/Computational Methods of Engineering Electronic and Computer Engineering Engineering Gating current Ion channels Mathematical and Computational Physics Mechanical Engineering Optical and Electronic Materials Shockley-Ramo
Theorems are rarely used in biology because they rarely help the descriptive experimentation to which biologists are devoted. A generalization of Kirchoff’s current law—the Shockley-Ramo (SR) theorem [1–6]—seems an exception. SR allows interpretation of macroscopic scale ‘gating’ currents associated with atomic scale charge movements within proteins.

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Collaboration types
Domestic collaboration
Citation topics
1 Clinical & Life Sciences
1.79 Molecular & Cell Biology - Physiology
1.79.239 Potassium Channel
Web Of Science research areas
Engineering, Electrical & Electronic
Physics, Applied
ESI research areas
Engineering

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