1994
DOI: 10.1111/j.1432-1033.1994.0827b.x
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Three‐Dimensional Structure of the Highly Conserved Seventh Transmembrane Domain of G‐Protein‐Coupled Receptors

Abstract: The S/T-XI-X,-N-P-X,-X,-Y highly conserved sequence of the seventh transmembrane (TM VII) segment of G-protein-coupled receptors is not present in the photon receptor bacteriorhodopsin TM VII domain. Despite this noticeable discrepancy in sequence, the X-ray structure of bacteriorhodopsin is generally used as the key structure for modelling all G-protein-coupled receptors. Thus, a kinked truns-Pro helix is usually accepted for the TM VII three-dimensional structure of G-proteincoupled receptors, although Asn-P… Show more

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Cited by 33 publications
(33 citation statements)
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“…However, this latter HB is satisfied by a water molecule that has penetrated the membrane deeply enough to provide an hydrogen bond donor to this backbone carbonyl oxygen about 50% of the time (Figs. 13 and 14).It is significant that the main features of the TMS7 intramolecular hydrogen bonding pattern predicted by the MD simulations are in good agreement with the HBs deduced from the NMR data obtained on the tachykinin NK-1 helix 7 in a perfluoro-tert-butanol/CD 3 OD solvent [17]. In particular, the NH backbone group of residue ASN 8 in tachykinin NK-1, which corresponds to ASN 16 in TMS7, is predicted to form hydrogen bonds of type [i − (i + 2)] and [i − (i + 3)] with MET 6 and THR 5 backbone carbonyl oxygens.…”
supporting
confidence: 80%
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“…However, this latter HB is satisfied by a water molecule that has penetrated the membrane deeply enough to provide an hydrogen bond donor to this backbone carbonyl oxygen about 50% of the time (Figs. 13 and 14).It is significant that the main features of the TMS7 intramolecular hydrogen bonding pattern predicted by the MD simulations are in good agreement with the HBs deduced from the NMR data obtained on the tachykinin NK-1 helix 7 in a perfluoro-tert-butanol/CD 3 OD solvent [17]. In particular, the NH backbone group of residue ASN 8 in tachykinin NK-1, which corresponds to ASN 16 in TMS7, is predicted to form hydrogen bonds of type [i − (i + 2)] and [i − (i + 3)] with MET 6 and THR 5 backbone carbonyl oxygens.…”
supporting
confidence: 80%
“…In addition, it is found experimentally that the side chain of residue ASN 8 forms an HB with the proton of the NH group in ILE 10 as was found here between the residues ASN 16 and LEU 18 of the TMS7 peptide. Finally, it is noted that for both of these similar transmembrane segments, the backbone carbonyl oxygen of the proline tends to form an HB with the side chain of the fourth succeeding residue, which is respectively the SER 13 and THR 21 in the NK-1 and TMS7 peptides [17]. The average lengths of some of the crucial hydrogen bonds that stabilize the NP motif of TMS7 are reported in Table V [72], has a strong tendency to interact with the two preceding carbonyl oxygens of residues 12 and 13 to form more common [i − (i + 3)] and [i − (i + 4)] hydrogen bonds.…”
mentioning
confidence: 98%
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“…However due to the high molecular mass of the micellar aggregate, incomplete NH-to-sidechain correlations were observed for large side-chain amino acids such as Arg and Lys. Reverse correlations from either the 6 or e protons, compared with the connectivities observed in 0.2 -.......................................................................................................................................................................... (Bundi and Wuthrich, 1079) and in perfluoro-terr-butanol (Berlose et al, 1994).…”
Section: Circular Dichroismmentioning
confidence: 99%
“…5. The values for random coil structures have been determined for amino acids in model tetrapeptides trifluoroacetyl-GGXA-OCH, in aqueous solution (Bundi and Wiithrich, 1979) or Ac-GGXA-NH, (Berlose et al, 1994) in perfluro-tert-butanol solution. The CHa protons of residues in a-helical conformation or in a psheet conformation are shifted upfield or downfield, respectively (Wishart et al, 1991).…”
Section: Circular Dichroismmentioning
confidence: 99%