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1. Transient receptor potential channels
by Islam, Md. Shahidul, M.D
2011, 1. Aufl., Advances in experimental medicine and biology, ISBN 9789400702646, Volume 704., xxiii, 1095
TRP channels | Transient Receptor Potential Channels | Physiology | Biochemistry
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2. TRP channels
by Zhu, Michael X
2011, Methods in signal transduction series, ISBN 9781439818602, xxii, 473
Neuroscience | Pharmacology | Cell Biology | Transient Receptor Potential Channels | TRP channels
Book
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3. Full Text Phosphoinositides regulate ion channels
by Hille, Bertil and Dickson, Eamonn J and Kruse, Martin and Vivas, Oscar and Suh, Byung-Chang
Biochimica et biophysica acta. Molecular and cell biology of lipids, ISSN 1388-1981, 06/2015, Volume 1851, Issue 6, pp. 844 - 856
Phospholipase C (PLC) | G-protein coupled receptor (GPCR) | Phosphatidylinositol 4,5-bisphosphate | Transient receptor potential channel (TRP channel) | Potassium channel | Calcium channel | Biochemistry & Molecular Biology | Biophysics | Life Sciences & Biomedicine | Science & Technology | Cell Biology | Calcium Channels - metabolism | Receptors, G-Protein-Coupled - metabolism | Signal Transduction | Humans | Gene Expression Regulation | Type C Phospholipases - metabolism | Chloride Channels - genetics | Epithelial Sodium Channels - metabolism | Potassium Channels - genetics | Cell Membrane - chemistry | Chloride Channels - metabolism | Potassium Channels - metabolism | Phosphatidylinositol 4,5-Diphosphate - metabolism | Epithelial Sodium Channels - genetics | Transient Receptor Potential Channels - genetics | Type C Phospholipases - genetics | Cell Membrane - metabolism | Ion Transport | Receptors, G-Protein-Coupled - genetics | Transient Receptor Potential Channels - metabolism | Calcium Channels - genetics | Ion channels | Membrane proteins
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4. Ion channels as drug targets in central nervous system disorders
by Waszkielewicz, A.M and Gunia, A and Szkaradek, N and Sloczynska, K and Krupinska, S and Marona, H
Current medicinal chemistry, ISSN 0929-8673, 04/2013, Volume 20, Issue 10, pp. 1241 - 1285
ASIC | TRP | Central nervous system | P2X | KCNQ | NMDA | CNS | Ion channels | Pharmacology & Pharmacy | Biochemistry & Molecular Biology | Life Sciences & Biomedicine | Chemistry, Medicinal | Science & Technology | Ligand-Gated Ion Channels - antagonists & inhibitors | Transient Receptor Potential Channels - antagonists & inhibitors | Calcium Channels - metabolism | Humans | Calcium Channel Blockers - therapeutic use | Potassium Channel Blockers - therapeutic use | Sodium Channel Blockers - pharmacology | Calcium Channel Blockers - pharmacology | Ion Channels - antagonists & inhibitors | Potassium Channels - metabolism | Animals | Ion Channels - metabolism | Sodium Channels - chemistry | Calcium Channels - chemistry | Central Nervous System Diseases - drug therapy | Sodium Channels - metabolism | Calcium Channel Blockers - chemistry | Sodium Channel Blockers - therapeutic use | Potassium Channels - chemistry | Sodium Channel Blockers - chemistry | Transient Receptor Potential Channels - metabolism | Ligand-Gated Ion Channels - metabolism | Potassium Channel Blockers - chemistry | Potassium Channel Blockers - pharmacology | Analgesics
Journal Article
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5. Full Text High temperature sensitivity is intrinsic to voltage-gated potassium channels
by Yang, Fan and Zheng, Jie
eLife, ISSN 2050-084X, 2014, Volume 3, pp. e03255 - e03255
gating | TRP channel | allosteric coupling | potassium channel | conformational changes | temperature sensing | Biology | Life Sciences & Biomedicine - Other Topics | Life Sciences & Biomedicine | Science & Technology | Potassium - metabolism | Large-Conductance Calcium-Activated Potassium Channels - metabolism | Allosteric Regulation | Humans | Shaker Superfamily of Potassium Channels - metabolism | Large-Conductance Calcium-Activated Potassium Channels - chemistry | TRPV Cation Channels - metabolism | Shal Potassium Channels - genetics | Shaker Superfamily of Potassium Channels - chemistry | HEK293 Cells | Large-Conductance Calcium-Activated Potassium Channels - genetics | Shal Potassium Channels - chemistry | Ion Transport | Transgenes | Protein Structure, Tertiary | Shab Potassium Channels - genetics | Gene Expression | Shaker Superfamily of Potassium Channels - genetics | Shab Potassium Channels - chemistry | TRPV Cation Channels - chemistry | Hot Temperature | Membrane Potentials - physiology | TRPV Cation Channels - genetics | Patch-Clamp Techniques | Shab Potassium Channels - metabolism | Shal Potassium Channels - metabolism | Animals | Mice | Ion Channel Gating | Data analysis | Pain perception | Channel gating | Capsaicin receptors | Equilibrium | Thermal energy | Transient receptor potential proteins | Heat | Allosteric properties | Temperature effects | Nociceptors | Physiology | Potassium channels (voltage-gated) | Ion channels | Sensors | Potassium | Index Medicus
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6. Full Text Transient receptor potential (TRP) channels: a clinical perspective
by Kaneko, Yosuke and Szallasi, Arpad
British journal of pharmacology, ISSN 0007-1188, 05/2014, Volume 171, Issue 10, pp. 2474 - 2507
respiratory disorders | pain | TRPA1 | TRPCs | bladder disorders | TRPV4 | TRPV3 | cancer | TRPV1 | TRPM8 | TRP channels | Respiratory disorders | Pain | Bladder disorders | Cancer | Life Sciences & Biomedicine | Pharmacology & Pharmacy | Science & Technology | Membrane Transport Modulators - chemistry | Transient Receptor Potential Channels - chemistry | Humans | Structure-Activity Relationship | Animals | Signal Transduction - drug effects | Transient Receptor Potential Channels - genetics | Transient Receptor Potential Channels - drug effects | Drug Design | Membrane Transport Modulators - therapeutic use | Ligands | Molecular Structure | Transient Receptor Potential Channels - metabolism | Pharmaceutical industry | Medical research | Metabolic disorders | Index Medicus | Themed Section | The Pharmacology of Trp Channels
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