K |
K channel structure |
Pongs O, Lange A, Hornig S, Martin-Eauclaire MF, Trauner D, Becker S, Baldus M |
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K+ channels, K+/H+ ATPase and SGK1 in the stimulation of gastric acid secretion by glucocorticoids |
Rotte A, Sandu C, Artunc F, Grahammer F, Kuhl D, Lang F |
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K+ conductance of duct cells from rat pancreas |
HAYASHI M, MATSUDA H |
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KATP channel activity of pancreatic B-cells is regulated by an adenylate kinase |
Krippeit-Drews P, Schulze DU, Dufer M, Janssen E, Wieringa B, Drews G |
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KAINATE POSTCONDITIONING RESTORES LTP IN ISCHEMIC HIPPOCAMPAL CA1: ONSET-DEPENDENT SECOND PATHOPHYSIOLOGICAL STRESS |
Farkas T., Nagy D., Kocsis K., Fuzik J., Marosi M., Kis Zs., Toldi J. |
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KATP channel inhibition as a promising strategy to protect pancreatic beta-cells against oxidative damage |
Edalat *A., Krippeit-Drews P., Drews G., Dufer M. |
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KATP channel inhibition protects pancreatic islets from oxidative stress by Ca2+-dependent activation of antioxidant enzymes |
DUFER M, GIER B, KRIPPEIT-DREWS P, DREWS G |
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KATP channels and protection against type 2 diabetes mellitus |
Dfer M. |
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KATP CHANNELS IN HUMAN PLACENTA, POSSIBLE IMPLICATION IN hPL AND hCG RELEASE? |
Lybaert L. |
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KATP CHANNELS IN SPERMATOZOA: EXPRESSION IN DIFFERENT SPECIES AND INVOLVEMENT IN CALCIUM INFLUX |
Lybaert P., Leleux F., Vegh G., Meuris , Lebrun P. |
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KATP channels, neonatal diabetes and neurological disorders: from molecule to malady |
Ashcroft F.M. |
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KATP-Channel-Dependent Glucose Sensing in the Locus Coeruleus Controls Brown Adipose Tissue Sympathetic Traffic and Energy Homeostasis |
Tovar S, Paeger L, Hess S, A Morgan D, Bronneke H, Hampel B, Ackermann P, Evers N, Buning H, Konner C, T Wunderlich F, Rahmouni K, Kloppenburg P, C Bruning J |
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KCC2 and carbonic anhydrase VII in epilepsy |
Kaila K |
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KCNE1 subunit has a dual effect on KCNQ1 channel conductance in CHO cells |
RYDQVIST B, MANSEN A, TISELIUS C, SAND P, VENNSTROM B |
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KCNJ10 potassium channels in the mouse distal nephron |
Reichold M., Bandulik S., Schmidt K., Lieberer E., Sterner C., Tegtmeier I., Warth R. |
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KCNQ channels in the thalamus: role of a neuronal brake in somatosensory perception |
Cerina *M., Szkudlarek H., Kanishkova T., Meuth S.G., Pape H.-C., Budde T., Coulon P. |
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KCNQ channels influence vascular reactivity in mouse aorta |
Yeung SY, Schwake M, Ohya S, Greenwood IA |
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KCNQ1 and KCNE2 gain-of-function mutations in familial atrial fibrillation |
Barhanin J, Bendahhou S |
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KCNQ1 channel response to cell volume changes is not mediated by ATP release |
HAMMAMI S, WILLUMSEN NJ, NOVAK I, KLAERKE DA |
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KCNQ1 mutation Q147R is associated with atrial fibrillation and prolonged QT-interval |
Lundby A., Ravn L.S., Svendsen J.H., Olesen S.P., Schmitt N. |
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Keeping the balance between sodium and calcium in cardiac disease |
SWIFT F, TOVSRUD T, ARONSEN JM, LOUCH WE, STOKKE MK, ENGER UH, SJAASTAD I, SEJERSTED OM |
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Kei Tatemoto's and Viktor Mutt's neuropeptides: Focus on NPY and anorexia |
HOKFELT T, NILSSON I, LINDFORS C, SCHALLING M, JOHANSEN J |
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Ketone bodies inhibit insulin-mediated glucose transport in mouse skeletal muscle |
KATZ A, YAMADA T, ZHANG SJ, WESTERBLAD H |
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KETOTIFEN PROPHYLAXIS OF EICOSANOIDS MEDIATED ALTERATIONS IN EXPERIMENTAL PORTAL HYPERTENSION |
Nava MP, Aller MA, Sanchez-Patan F, Vara E, Garcia C, Cuellar C, Rodero M, Arias J |
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Key role of CFTR for all modes of intestinal HCO3- secretion |
SINGH A, ZHENH W, SJOBLOM M, SEIDLER U |
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KEY ROLE OF THE NICOTINIC RECEPTOR IN THE EXOCYTOSIS OF NEUROTRANSMITTERS IN HUMAN CHROMAFFIN CELLS |
Perez-Alvarez A, Hernandez-Vivanco A, Albillos A |
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Kidney function and the regulation of blood volume |
BIE P |
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Kidney-specific deficiency of PPAR results in increased mouse renin production |
Desch M., Schreiber A., Schweda F., Gomez R. A., Kurtz A., Todorov V. |
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Kidney-specific deletion of the multidrug resistance related protein 2 (Mrp2) does not aggravate cyclosporine A-induced damage to renal grafts |
MAHLER N, SCHLUTER T, KAUSCHKE R, STEINBACH A, RETTIG R, GRISK O |
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Kindlin-3 is essential for firm leukocyte adhesion during inflammation in vivo |
Sperandio M., Schmid S., Fassler R., Moser M. |
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Kinetic analysis of FHC-associated mutations in troponin I: translation of functional effects from the molecular level to the sarcomere and the whole heart |
STEHLE R, IORGA B, BLAUDECK N, KULOZIK FP, ELHAMINE F, ZITTRICH S, JACOBI C, KOCKS S, GODECKE A, SCHRADER J, PFITZER G |
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Kinetic properties of the rabbit intestinal oligopeptide cotransporter PepT1: role of temperature |
BOSSI E, CHERUBINO F, MARGHERITIS E, OYADEYI A, VOLLERO A, DANTONI F, PERES A |
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Kinetic study of ligand-induced activation in homo- and heterotetrameric olfactory CNG channels |
Nache *V., Wongsamitkul N., Schulz E., Zimmer T., Schmauder R., Kusch J., Benndorf K. |
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Kinetics of Ca2+-induced skeletal thin-filament activation and force development in rabbit psoas myofibrils |
Solzin J, Ruess DF, Zittrich S, Elhamine F, Pfitzer G, Stehle R |
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Kinetics of fluid flux in the rat diaphragmatic submesothelial lymphatic lacunae |
MORIONDO A, BIANCHIN F, MARCOZZI C, NEGRINI D |
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Kinetics of force-induced cell reorganization depends on microtubules and actin |
Ralf Kemkemer |
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Kinetics of myosin light chain phosphorylation in the heart |
EIKEMO H, NUNN C, LEVY FO, SKOMEDAL T, OSNES JB |
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Kinetics of the increase in stiffness following stretches superposed on the isometric contraction of single muscle fibres |
FUSI L, RECONDITI M, BRUNELLO E, ELANGOVAN R, LOMBARDI V, PIAZZESI G |
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KINETICS OF VOLUME CHANGE IN H2O2 INDUCED CELL DEATH IN QUAIL RED BLOOD CELLS. |
Lou-Bonafonte JM, Andres MJ, Puente JJ, Marzo I, Gil C, Escanero JF |
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K-influence on motor and electrical vesical oscillations: stretch-dependent channels |
Martin D., Gornik E., Foltin V., Seidenbusch W., Michailov M.C., Neu E. |
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Kir2 potassium channels are differentially regulated by Gq/11 coupled receptors |
Fuchs L, Wischmeyer E |
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KISSPEPTIN HAS DIFFERENTIAL EFFECTS ON PLASMA NEUROPEPTIDE Y AND PEPTIDE YY CONCENTRATIONS IN YOUNG MALE RATS |
Canpolat Sinan, Alver Ahmet, Mentese Ahmet, Saral Sinan |
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KISSPEPTINS AND THE NEUROENDOCRINE CONTROL OF PUBERTY ONSET AND FERTILITY IN MAMMALS |
Tena-Sempere M |
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KNJ10 gene mutations causing EAST syndrome decrease channel function |
*Humberg E., Schmidt K., Zdebik A., Rapedius M., Warth R., Bandulik S., Sterner C., Tegtmeier I., Penton D., Baukrowitz T., Hulton SA., Witzgall R., Ben-Zeev B., Howie A., Kleta R., Bockenhauer D., Reichold M. |
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Knock-down of cellular prion protein disrupts copper homeostasis in neuroblastoma cell models |
URSO E, RIZZELLO A, DANIELI A, ACIERNO R, MAFFIA M |
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Knockdown of prolyl-4-hydroxylase domain 2 inhibits tumor growth of human breast cancer MDA-MB-231 cells by affecting TGF-β1 processing |
Wottawa
*M.
, Leisering P., von Ahlen M., Schnelle M., Vogel S., Cordula M., Bordoli M., Camenisch G.C., Hesse A., Napp J., Alves F., Kristiansen G., Farhat K., Katschinski D. |
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Knocking out the adenosine A1 receptor increases lipolysis and insulin release |
FREDHOLM BB, JOHANSSON SM, GRAPENGIESSER E, HELLMAN B, KATZ A, SALEH A |
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Knock-out mice and the role of cardiac Toll-like receptors |
Zacharowski K |
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K-Ras isoform modulates extracellular matrix synthesis through Erk and Akt signalling. |
Fuentes-Calvo I, Munoz-Felix JM, Eleno-Balboa N, Lopez-Novoa JM, Martinez-Salgado C |
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K-RAS ISOFORM REGULATES FIBROBLASTS PROLIFERATION AND CELL MOTILITY TROUGH ERK AND AKT ACTIVATION. |
Munoz-Felix JM, Fuentes-Calvo I, Lopez-Novoa JM, Martinez-Salgado C |
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Kva2 subunits carry a large part of the Kv current of rat cerebral artery smooth muscle cells |
Schubert R, Lysenko N, Kamkin A |
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Kv1.3/Kv1.5 HETEROTETRAMERS ARE INVOLVED IN THE IMMUNOMODULATION OF MACROPHAGES |
Villalonga N, David M, Escalada A, Texido L, Vicente R, Sole L, Valenzuela C, Solsona C, Felipe A |
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Kv3 channels effectively limit the protein number necessary for action potential repolarization in hippocampal mossy fiber boutons |
ALLE H, KUBOTA H, GEIGER JRP |
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Kv3.x subunits contribute substantially to the delayed rectifier K+ current (IK) in small cultured DRG neurons |
Bocksteins E., Van de Vijver G., Bruyns T., Van Bogaert PP., Snyders D.J. |
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Kv4.2 closed-state inactivation mechanism and structural determinants |
Barghaan J, Bahring R |
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Kv4.2/KChIP3 channel function in the presence of the ceroid-lipofuscinosis-neuronal-3 protein CLN3 |
Seifert *C., Storch S., Bahring R. |
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KV4.x CHANNELS ARE CLUSTERED WITH PROTEIN KINASES IN LIPID RAFTS IN RAT CARDIAC MYOCYTES. |
Ahyayauch H, Alday A, Casis O |
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Kv7 channel function and its role in health and disease |
BLOM S, RASMUSSEN HB, SCHMITT N |
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Kv7 channel modifying drugs |
Hansen H. |
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KV7 CHANNELOPATHIES |
Maljevic Snezana, Lerche Holger |
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Kv7 potassium channels of the inhibitory interneurons of hippo-campal culture |
Grygorov O., Moskalyuk A., Dosenko V., Fedulova S., Veselovsky N., Brown D. |
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Kv7.1 surface expression is regulated by epithelial cell polarization |
ANDERSEN MN, OLESEN SP, RASMUSSEN HB |
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