By Anita Sidhu, Marc Laruelle, Philippe Vernier
"Details the functionality, characterization, and body structure of assorted dopamine receptor/transporter platforms and explores their position in etiology, prognosis, and ailment management."
Read Online or Download Dopamine Receptors And Transporters: Function, Imaging And Clinical Implication (Neurological Disease and Therapy) (v. 56) PDF
Similar anatomy & physiology books
This booklet addresses vital biomaterials that are established to manufacture scaffolds and it describes significant protocols hired in scaffold fabrication. Tissue engineering or regenerative medication goals at restoring ex-novo tissues and organs whose performance has been compromised by reason of ailments or worrying occasions.
Are crops clever? Can they clear up difficulties, speak, and navigate their atmosphere? Or are they passive, incapable of self reliant motion or social habit? Philosophers and scientists have meditated those questions for the reason that old Greece, pretty much concluding that crops are unthinking and inert: they're too silent, too sedentary -- simply too varied from us.
A valid wisdom of anatomy and body structure is a vital foundation for the potent medical therapy of spouse animals. the recent 3rd version advent to Veterinary Anatomy and body structure Textbook bargains transparent and finished of the typical spouse animal species. up to date all through with a brand new part extra on huge animals, the recent version positive aspects augmented on-line studying assets with new questions and quizzes.
THIS variation HAS BEEN changed via a more recent variation
- Methods in Genomic Neuroscience (Frontiers in Neuroscience)
- Nerve and Muscle
- Nerves, Muscles, and Electricity: An Introductory Manual of Electrophysiology
- Visual Anatomy & Physiology Lab Manual Cat Version
Extra resources for Dopamine Receptors And Transporters: Function, Imaging And Clinical Implication (Neurological Disease and Therapy) (v. 56)
J Biol Chem 274:7309â 7315,1999. 264. I Ishii, T Izumi, M Ui, T Shimizu. High and low affinity mutants of plateletactivating factor receptor. Adv Exp Med Biol 433:249â 253,1997. 265. S Perlman, CM Costa-Neto, AA Miyakawa, HT Schambye, SA Hjorth, AC Paiva, RA Rivero,WJ Greenlee, TW Schwartz. Dual agonistic and antago-nistic property of nonpeptide angiotensin AT1 ligands: susceptibility to recep-tor mutations. Mol Pharmacol 51:301â 311,1997. 266. C Monnot, C Bihoreau, S Conchon, KM Curnow, P Corvol, E Clauser.
Re-evaluation of bacteriorhodopsin as a model for G protein-coupled receptors. Trends Pharmacol Sci 15:7â 9,1994. 34 35 193. MM Teeter, CJ DuRand. Dopamine D2 receptor model explains binding affinity of neuroleptics: piquindone and its structure activity relationships. Drug Des Discov 13:49â 62, 1996. 194. C Ostermeier, A Harrenga, U Ermler, H Michel. 7 A resolution of the Paracoccus denitrificans two-subunit cytochrome c oxidase complexed with an antibody FV fragment. Proc Natl Acad Sci USA 94:10547â 10553,1997.
BK Kobilka, TS Kobilka, K Daniel, JW Regan, MG Caron, RJ Lefkowitz. Chimeric Î±2Î²2-adrenergic receptors: delineation of domains involved in effec-tor coupling and ligand binding specificity. Science 240:1310â 1316, 1988. 282. J Wess, MR Brann, TI Bonner. Identification of a small intracellular region of the muscarinic m3 receptor as a determinant of selective coupling to PI turn-over. FEBS Lett 258:133â 136, 1989. 283. LB Kozell, KA Neve. Constitutive activity of a chimeric D2/D1 dopamine receptor.