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Journal Article
Angewandte Chemie, ISSN 0044-8249, 2016, Volume 128, Issue 37, pp. 11243 - 11247
The voltage‐dependent L‐type Ca2+channel was identified as a macromolecular target for (−)‐englerin... 
Molekulare Erkennung | Chemische Biologie | Spannungsgesteuerte Calciumkanäle | Zielstrukturvorhersage | Naturstoffe | Molecular dynamics | Aluminum compounds | Calcium channels
Journal Article
Science (American Association for the Advancement of Science), ISSN 1095-9203, 2001, Volume 294, Issue 5541, pp. 333 - 339
Journal Article
Journal of Neurochemistry, ISSN 0022-3042, 05/2008, Volume 105, Issue 3, pp. 573 - 583
Cav1 L‐type Ca2+ channels play crucial and diverse roles in the nervous system. The pre‐ and post‐synaptic functions of Cav1 channels not only depend... 
plasticity | calcium | transmission | transcription | calmodulin | synaptic | Synaptic | Calcium | Transcription | Calmodulin | Plasticity | Transmission | Neurology | Signal transduction | Biochemistry | Biophysics
Journal Article
Journal Article
Circulation Research, ISSN 0009-7330, 02/2007, Volume 100, Issue 3, pp. 342 - 353
... of these Ca channels produces diverse actions on renal microcirculation. Because nifedipine acts exclusively on L-type Ca channels, the observation that nifedipine... 
Renal microcirculation | Mibefradil | channels | Afferent arteriole | channel blockers | Efferent arteriole | Renal disease | Voltage-dependent Ca | Efonidipine | Ca2+ channel blockers | N-TYPE | CARDIAC & CARDIOVASCULAR SYSTEMS | EFFERENT ARTERIOLES | efonidipine | SPONTANEOUSLY HYPERTENSIVE-RATS | RHO-KINASE INHIBITOR | renal microcirculation | ANGIOTENSIN-II | T-TYPE | renal disease | mibefradil | DEPENDENT CALCIUM-CHANNELS | CARDIAC L-TYPE | RENAL MICROVASCULAR CONSTRICTION | efferent arteriole | voltage-dependent Ca2+ channels | PERIPHERAL VASCULAR DISEASE | afferent arteriole | HEMATOLOGY | IN-VIVO VISUALIZATION | Arterioles - physiology | Kidney - physiology | Protein Subunits | Antihypertensive Agents - pharmacology | Kidney - blood supply | Humans | Calcium Channel Blockers - therapeutic use | Hypertension - drug therapy | Antihypertensive Agents - classification | Calcium Channels - physiology | Calcium Channels, T-Type - chemistry | Neurotransmitter Agents - secretion | Calcium Channels - drug effects | Calcium Channels, N-Type - drug effects | Cardiovascular Diseases - physiopathology | Kidney - drug effects | Calcium Channels - classification | Rats | Calcium Channels, L-Type - physiology | Antihypertensive Agents - therapeutic use | Arterioles - drug effects | Disease Progression | Antihypertensive Agents - adverse effects | Mice, Knockout | Calcium Signaling - drug effects | Diabetes Mellitus - physiopathology | Models, Biological | Calcium Channels - chemistry | Calcium Channels, T-Type - drug effects | Mice | Vasodilation - drug effects | Hydronephrosis - physiopathology | Calcium Channel Blockers - adverse effects | Calcium Signaling - physiology | Cardiovascular Diseases - drug therapy | Renal Circulation - physiology | Microcirculation - drug effects | Microcirculation - physiology | Renal Circulation - drug effects | Blood Pressure - drug effects | Calcium Channels, L-Type - chemistry | Kidney Diseases - metabolism | Calcium Channels, T-Type - physiology | Renin - secretion | Aldosterone - physiology | Kidney Diseases - drug therapy | Renin-Angiotensin System - physiology | Calcium Channel Blockers - pharmacology | Hypertension - physiopathology | Animals | Calcium Channels, L-Type - drug effects | Calcium Channels, N-Type - physiology | Calcium Channels, N-Type - chemistry
Journal Article
Journal Article