ExLibris header image
SFX Logo
Title: Pentobarbital: dual actions to increase brain benzodiazepine receptor affinity
Source:

Science [0036-8075] Skolnick, P yr:1981


Collapse list of basic services Basic
Sorry, no full text available...
Please use the document delivery service (see below)  
Holding information
Holdings in library search engine ALBERT GO
Document delivery
Request document via Library/Bibliothek GO
Users interested in this article also expressed an interest in the following:
1. Bergmann, R. "A Unified Model of the GABA(A) Receptor Comprising Agonist and Benzodiazepine Binding Sites." PLoS ONE 8.1 (2013). Link to Full Text for this item Link to SFX for this item
2. Vogensen, Stine B. "New synthesis and tritium labeling of a selective ligand for studying high-affinity γ-hydroxybutyrate (GHB) binding sites." Journal of medicinal chemistry 56.20 (2013): 8201-8205. Link to Full Text for this item Link to SFX for this item
3. Potet, F. "Identification and Biophysical Characterization of a Compound that Protects HERG from Block by a Proarrhythmic Agent." Biophysical journal 2011. 429-429. Link to Full Text for this item Link to SFX for this item
4. Jourdain, P. "Simultaneous Optical Recording in Multiple Cells by Digital Holographic Microscopy of Chloride Current Associated to Activation of the Ligand-Gated Chloride Channel GABA(A) Receptor." PLoS ONE 7.12 (2012). Link to Full Text for this item Link to SFX for this item
5. Buhr, A. "Residues at positions 206 and 209 of the alpha 1 subunit of gamma-aminobutyric acid(A) receptors influence affinities for benzodiazepine binding site ligands." Molecular pharmacology 52.4 (1997): 676-682. Link to SFX for this item
6. "Life Science Research - Chemical Neuroscience; Data on Chemical Neuroscience Reported by Researchers at University of Copenhagen (Radiosynthesis and Evaluation of [C]3-Hydroxycyclopent-1-enecarboxylic Acid as Potential PET Ligand for the High-Affinity g-H." Life science weekly. 2016-. Link to SFX for this item
7. Khmaladze, A. "Cell volume changes during apoptosis monitored in real time using digital holographic microscopy." Journal of structural biology 178.3 (2012): 270-278. Link to SFX for this item
8. Pedraza, C. "Neurotoxic effect of γ-hydroxibutiric acid (GHB): Behavioural effects." Toxicology Letters 2014. Link to SFX for this item
9. Stephenson, F A. "Introduction to Thematic Minireview Series on Celebrating the Discovery of the Cysteine Loop Ligand-gated Ion Channel Superfamily." Journal of biological chemistry 287.48 (2012): 40205-6. Link to Full Text for this item Link to SFX for this item
10. Fonnum, F. "Subcellular localization of N-acetyl-aspartyl-glutamate, N-acetyl-glutamate and glutathione in brain." Journal of neurochemistry 16.9 (1969): 1409-16. Link to Full Text for this item Link to SFX for this item
11. Ebert, V. "Extensive heterogeneity of recombinant gamma-aminobutyric acid(A) receptors expressed in alpha(4)beta(3)gamma(2)-transfected human embryonic kidney 293 cells." Neuropharmacology 35.9-10 (1996): 1323-1330. Link to Full Text for this item Link to SFX for this item
12. Berezhnoy, D. "On the Benzodiazepine Binding Pocket in GABA sub(A) Receptors." The Journal of biological chemistry 279.5 (2004): 3160-3168. Link to SFX for this item
13. Sharkey, L M M. "Individually monitoring ligand-induced changes in the structure of the GABAA receptor at benzodiazepine binding site and non-binding-site interfaces." Molecular pharmacology 74.1 (2008): 203-12. Link to SFX for this item
View More...
View Less...
Select All Clear All

Expand list of advanced services Advanced
A service provided by the Library of the Wissenschaftspark Albert Einstein, Potsdam, Germany.
© 2005 SFX by Ex Libris Inc.