Description |
1 online resource |
Series |
Chemical analysis ; volume 183 |
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Chemical analysis ; v. 183.
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Contents |
Study of ion pump activity using black lipid membranes / Hans-Jürgen Apell and Valerij S. Sokolov -- Analyzing ion permeation in channels and pumps using patch-clamp recording / Andrew J. Moorhouse, Trevor M. Lewis, and Peter H. Barry -- Probing conformational transitions of membrane proteins with voltage clamp fluorometry (VCF) / Thomas Friedrich -- Patch clamp analysis of transporters via pre-steady-state kinetic methods / Christof Grewer -- Recording of pump and transporter activity using solid-supported membranes (SSM-based electrophysiology) / Francesco Tadini-Buoninsegni and Klaus Fendler -- Stopped-flow fluorimetry using voltage-sensitive fluorescent membrane probes / Ronald J. Clarke and Mohammed A.A. Khalid -- Nuclear magnetic resonance spectroscopy / Philip W. Kuchel -- Time-resolved and surface-enhanced infrared spectroscopy / Joachim Heberle -- Analysis of membrane-protein complexes by single-molecule methods / Katia Cosentino, Stephanie Bleicken, and Ana J. García-Sáez -- Probing channel, pump, and transporter function using single-molecule fluorescence / Eve E. Weatherill, John S.H. Danial, and Mark I. Wallace -- Electron paramagnetic resonance : site-directed spin labeling / Louise J. Brown and Joanna E. Hare -- Radioactivity-based analysis of ion transport / Ingolf Bernhardt and J. Clive Ellory -- Cation uptake studies with atomic absorption spectrophotometry (AAS) / Thomas Friedrich -- Long timescale molecular simulations for understanding ion channel function / Ben Corry |
Summary |
Describes experimental methods for investigating the function of pumps, channels and transporters Covers new emerging analytical methods used to study ion transport membrane proteins such as single-molecule spectroscopy Details a wide range of electrophysiological techniques and spectroscopic methods used to analyze the function of ion channels, ion pumps and transporters Covers state-of-the art analytical methods to study ion pumps, channels, and transporters, and where analytical chemistry can make further contributions |
Notes |
"Ion-transporting membrane proteins permanently embedded in the membranes of cells or cell organelles can be grouped into three broad categories: channels, pumps, and transporters"--Chapter 1, introduction |
Bibliography |
Includes bibliographical references and index |
Notes |
Print version record and CIP data provided by publisher |
Subject |
Carrier proteins.
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Ion pumps.
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Ion channels.
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Membrane proteins.
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Biological transport.
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Carrier Proteins
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Ion Channels
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Membrane Proteins
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Biological Transport
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SCIENCE -- Life Sciences -- Biochemistry.
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Analytic.
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Pharmacy.
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MEDICAL.
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Chemistry.
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SCIENCE.
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Biological transport
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Carrier proteins
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Ion channels
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Ion pumps
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Membrane proteins
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Form |
Electronic book
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Author |
Clarke, Ronald J. (Ronald James), editor.
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Khalid, Mohammed A. A. (A. Ali), editor.
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LC no. |
2015020413 |
ISBN |
9781119085133 |
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1119085136 |
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9781119085140 |
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1119085144 |
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9781119085126 |
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1119085128 |
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1118858808 |
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9781118858806 |
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