A Raman spectroscopic study of acetylcholine receptor-rich membranes from Torpedo marmorata. Interaction of the receptor with carbamylcholine and (+)-tubocurarine
Autor: | Jean Luc Galzi, Pál Gróf, Dimitrina Aslanian, Jean-Pierre Changeux |
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Rok vydání: | 1993 |
Předmět: |
Stereochemistry
Biophysics Tubocurarine Spectrum Analysis Raman Torpedo Biochemistry Protein Structure Secondary law.invention symbols.namesake chemistry.chemical_compound Membrane Lipids law Aromatic amino acids Animals Receptors Cholinergic Protein secondary structure Cell Membrane Tryptophan Cell Biology Membrane chemistry Membrane protein Competitive antagonist symbols Carbachol Raman spectroscopy |
Zdroj: | Biochimica et biophysica acta. 1148(2) |
ISSN: | 0006-3002 |
Popis: | Raman spectroscopy is used to determine structural features of alkali-treated subsynaptic membrane fragments from Torpedo marmorata electric organ, rich in native functional AcChR. Distinct vibrations attributable to the membrane proteins and lipids were identified and studied before and after addition of the agonist carbamylcholine and the competitive antagonist ( + )-tubocurarine. The protein secondary structure determined by using amide-I polypeptide vibrational analysis, indicates 47% α-helices, 25% β-sheets, 18% turns and 11% undefined structure. The secondary structure of the AcChR molecule was not subject to large modifications upon addition of carbamylcholine. But, the presence of the ( + )-tubocurarine leads to detectable changes in the amide-I region which might be interpreted as reflecting different contributions of α-helices and turns in the secondary structure. In addition, Raman spectra provide information about the environment of aromatic amino acids (tyrosine and tryptophan), the (C-C) bonds, the CH 2 and CH 3 groups of aliphatic side chains, as well as the disulfide (S-S) and cystein (C-S) bonds. The tyrosines seem ‘exposed’ to the aqueous medium. The Raman spectra of the AcChR-carbamylcholine complex suggest ‘exposed’ tryptophans, while those of the unliganded membrane-bound AcChR or of the receptor with ( + )-tubocurarine are shown ‘buried’. The disulfide bridges in the AcChR subunits show identical conformation in the absence and presence of carbamylcholine. On the contrary, considerable changes are found in the AcChR-( + )-tubocurarine complex. Carbamylcholine and especially ( + )-tubocurarine decrease lipid fluidity. |
Databáze: | OpenAIRE |
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