| N |
| NADPH oxidase 4 is upregulated under chronic hypoxia by a HIF-independent mechanism in endothelial cells |
| Brunssen *C., Arsov A., Eickholt C., Leuner A., Langbein H., Brux M., Goettsch C., Goettsch W., Augstein A., Poitz D., Strasser R.H., Breier G., Morawietz H. |
| |
| NADPH oxidase NOX4 is regulated by the main mediator of cellular adaptation to redox stress NRF2 |
| Eickholt *C., Brunssen C., Langbein H., Brux M., Goettsch C., Goettsch W., Arsov A., Morawietz H. |
| |
| Nanodomain coupling at the glutamatergic parallel fiber to Purkinje cell synapse |
| Schmidt *H., Brachtendorf S., Arendt O., Hallermann S., Schaarschmidt G., Heckmann M., Eilers J. |
| |
| Nanomechanical properties of the endothelial glycocalyx ex vivo: an atomic force microscopy study |
| Wiesinger *A., Peters W., Padberg J.-S., Grabner A., Kentrup D., Reuter S., Pavenstadt H., Oberleithner H., Kumpers P. |
| |
| Naturally occurring C-terminal hERG channel mutation (N996I) accelerates IKr current inactivation in HEK293 cells |
| Welling *A. |
| |
| Neuronal Erythropoietin (Epo) overexpression protects mice against presbycusis |
| Monge A., Belfrage C., Gassmann M., Vogel *J. |
| |
| Neuronal L-type calcium channels: a target for neuroprotection in Parkinsons Disease? |
| Striessnig *J. |
| |
| Neuron-specific inactivation of prolyl-4-hydroxylase domain protein 2 decreases brain injury after transient cerebral ischemia |
| Kunze *R., Zhou W., Veltkamp R., Wielockx B., Breier G., Marti H.H. |
| |
| Neurotoxicity of Aluminum and Alzheimer disease |
| Djebli *N. |
| |
| NHE1 generates pH-nanoenvironments at focal adhesions |
| Ludwig *F.T., Schwab A., Stock C. |
| |
| Nicotinic acetylcholine receptors activate ion transport in mouse tracheal epithelium via Ca2+ and cAMP signalling |
| Hollenhorst *M., Lips K., Clauss W., Kummer W., Fronius M. |
| |
| Niflumic acid facilitates thapsigargin-induced apoptosis in K562 cells by activation of Ca2+-activated potassium channels (SK4) and inhibition of store-operated calcium channels |
| Kucherenko *Y., Lang F. |
| |
| NO - guanylyl cyclase in murine endothelial cells? |
| Jager *R., Bettaga N., Konig P., Lies B., Groneberg D., Schuh K., Friebe A. |
| |
| Non-quantal release of acetylcholine in neuromuscular junction and its regulation through purinergic receptors |
| Vyskocil *F., Nikolsky E., Malomouzh A. |
| |
| Noradrenalin and galanin modulate phagocytosis in microglia |
| Landrichinger *J., Steininger T., Beyreis M., Kofler B., Kerschbaum H. |
| |
| Noradrenergic modulation of excitatory transmission in mouse visual cortex |
| Salgado H., Kohr G., Trevino *M. |
| |
| Norepinephrine enhances angiotensin II-induced contractions after hypoxia in renal interlobar arteries of mice |
| Zavaritskaya *O., Kaufmann J., Martinka P., Moede O., Sendeski M., Fahling M.F., Steege A., Gaestel M., de Moraes da Silva I., Schubert R., Patzak A. |
| |
| Norepinephrine has a sustained stimulatory effect on the epithelial sodium channel (ENaC) in an aldosterone-sensitive mouse collecting duct cell line |
| Mansley *M., Bertog M., Korbmacher C. |
| |
| Notch signalling is essential to maintain vascular integrity |
| Fischer *A., Adam G., Liebler S., Wustehube J. |
| |
| Novel insights into the SLC45 gene family of putative sugar transporters |
| Bartoelke R., Wieczorek H., Vitavska *O. |
| |
| Nox4 is essentially involved in murine angiogenesis |
| Schroder *K., Benkhoff S., Michaelis-Popp U.R., Brandes R.P. |
| |
| NS8593 inhibits activity of the kinase-coupled cation channel TRPM7 in a magnesium-dependent manner |
| Chubanov *V., Mederos y Schnitzler M., Meissner M., Schafer S., Abstiens K., Hofmann T., Gudermann T. |
| |
| Nuclear calcium signalling during the development of hypertension-induced hypertrophy in rat ventricular myocytes |
| Plackic *J., Pluteanu F., Kockskamper J. |
| |
| Nuclear transport of Wilms tumor protein Wt1 involves importins and |
| Depping *R., Schindler S.G., Jacobi C., Kirschner K.M., Scholz H. |
| |