C Derst
Overview
Explore the profile of C Derst including associated specialties, affiliations and a list of published articles.
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Articles
33
Citations
1151
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Recent Articles
1.
Poller W, Bernard R, Derst C, Weiss T, Madai V, Veh R
Neuroscience
. 2011 Jul;
193:205-16.
PMID: 21798320
The lateral habenular complex (LHb) is a key signal integrator between limbic forebrain regions and monoaminergic hindbrain nuclei. Major projections of LHb neurons target the dopaminergic ventral tegmental area (VTA)...
2.
Pruss H, Dewes M, Derst C, Fernandez-Klett F, Veh R, Priller J
Neuroscience
. 2011 Feb;
180:19-29.
PMID: 21329741
Neural progenitor cells (NPCs) are a source of new neurons and glia in the adult brain. Most NPCs reside in the forebrain subventricular zone (SVZ) and in the subgranular zone...
3.
Bernstein H, Derst C, Stich C, Pruss H, Peters D, Krauss M, et al.
Amino Acids
. 2010 Jun;
40(2):453-65.
PMID: 20563878
Agmatinase, an ureohydrolase belonging to the arginase family, is widely expressed in mammalian tissues including the brain. Here, it may serve two different functions, the inactivation of the arginine derivative...
4.
Gessner G, Schonherr K, Soom M, Hansel A, Asim M, Baniahmad A, et al.
J Membr Biol
. 2006 Apr;
208(3):229-40.
PMID: 16604468
Large-conductance Ca2+-dependent K+ (BK(Ca)) channels are activated by intracellular Ca2+ and membrane depolarization in an allosteric manner. We investigated the pharmacological and biophysical characteristics of a BK(Ca)-type K+ channel in...
5.
Skatchkov S, Eaton M, Shuba Y, Kucheryavykh Y, Derst C, Veh R, et al.
Glia
. 2005 Nov;
53(3):266-76.
PMID: 16265669
Tandem-pore domain (2P-domain) K+-channels regulate neuronal excitability, but their function in glia, particularly, in retinal glial cells, is unclear. We have previously demonstrated the immunocytochemical localization of the 2P-domain K+...
6.
Predel R, Neupert S, Wicher D, Gundel M, Roth S, Derst C
Eur J Neurosci
. 2004 Sep;
20(6):1499-513.
PMID: 15355317
FMRFamides belong to the most extensively studied neuropeptides in invertebrates and exhibit diverse physiological effects on different target organs, such as muscles, intestine and the nervous system. This study on...
7.
Derst C, Messutat S, Walther C, Eckert M, Heinemann S, Wicher D
Eur J Neurosci
. 2003 Apr;
17(6):1197-212.
PMID: 12670308
Voltage-activated, Ca2+-sensitive K+ channels (BK or maxi K,Ca channels) play a major role in the control of neuronal excitability. We have cloned pSlo, the BK channel alpha subunit of the...
8.
Karschin C, Wischmeyer E, Preisig-Muller R, Rajan S, Derst C, Grzeschik K, et al.
Mol Cell Neurosci
. 2001 Dec;
18(6):632-48.
PMID: 11749039
TWIK-related acid-sensitive K(+) (TASK) channels contribute to setting the resting potential of mammalian neurons and have recently been defined as molecular targets for extracellular protons and volatile anesthetics. We have...
9.
Derst C, Hirsch J, Preisig-Muller R, Wischmeyer E, Karschin A, Doring F, et al.
Kidney Int
. 2001 Jun;
59(6):2197-205.
PMID: 11380822
Background: K(+) channels have important functions in the kidney, such as maintenance of the membrane potential, volume regulation, recirculation, and secretion of potassium ions. The aim of this study was...
10.
Jeck N, Derst C, Wischmeyer E, Ott H, Weber S, Rudin C, et al.
Kidney Int
. 2001 Apr;
59(5):1803-11.
PMID: 11318951
Background: The renal K(+) channel ROMK (Kir1.1) controls salt reabsorption in the kidney. Loss-of-function mutations in this channel cause hyperprostaglandin E syndrome/antenatal Bartter syndrome (HPS/aBS), which is characterized by severe...