Project Details
Mechanisms of Ion Channel Gating
Applicant
Professor Dr. Ulf-Peter Hansen
Subject Area
Plant Biochemistry and Biophysics
Term
from 2000 to 2011
Project identifier
Deutsche Forschungsgemeinschaft (DFG) - Project number 5228782
Final Report Year
2008
Final Report Abstract
No abstract available
Publications
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2004. Distributionsper-level: A means of testing level detectors and models of patch clamp data. J. Membrane Biol. 197: 49-58
Schroeder, I., Huth, T., Suitchmezian, V., Jarosik, J., Schnell, S., Hansen, U.P.
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2005. A subsequent fit of time series and amplitude histogram of patch clamp data reveals rate-constants up to 1 ms-1. J. Membrane Biol. 203: 83-99
Schroeder, I., P. Harlfinger, P., Huth, T., Hansen, U.P.
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2005: 4-Mode-Gating-Modell Modellierung der Inaktivierung des Natriumkanals. Dissertation Kiel
Huth, Tobias
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2006. Strengths and limits of Beta distributions as a means of reconstructing the true single-channel current in patch clamp time series with fast gating. J. Membrane Biol. 210: 199-212
Schroeder, I., Hansen, U.P.
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2006. The power of two-dimensional dwell-time analysis for model discrimination, temporal resolution, multichannel analysis and level detection. J. Membrane Biol. 214: 19-32
Huth, T., Schroeder, I., Hansen, U.P.
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2007. Saturation and ms-gating of current indicate depletion-induced instability of the MaxiK selectivity filter. J. Gen. Physiol. 130: 83-97
Schroeder, I., Hansen, U.P.
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2007: Improved sub-ms gating analysis indicates conformational changes as caused by ion/pore interactions in the MaxiK channel. Dissertation Kiel
Schröder, Indra
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2008. 4-mode gating model of the inactivation of sodium channel Nav1.2a. Pflügers Archiv
Huth, T., Schmidtmayer, J., Alzheimer, C., Hansen, U.P.
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2008. TI+-induced ms-gating of current indicates instability of the MaxiK selectivity filter as caused by ion/protein interaction. J. Gen. Physiol.
Schroeder, I., Hansen, U.P.