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The agonistic binding site at the histamine H2 receptor. II. Theoretical investigations of histamine binding to receptor models of the seven α-helical transmembrane domain (1996)

Nederkoorn, Paul H. J. ; Gelder, Erna M. ; Donné-Op den Kelder, Gabriëlle M. ; [et al.]

Springer

Journal of computer aided molecular design 10 (1996), S. 479-489

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ISSN: 1573-4951

Keywords: G-protein-coupled receptor ; Hartree-Fock calculations ; Histamine H2 receptor ; Molecular mechanics ; Receptor models

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Summary In the first part (pp. 461–478 in this issue) of this study regarding the histamine H2 receptor agonistic binding site, the best possible interactions of histamine with an α-helical oligopeptide, mimicking a part of the fifth transmembrane α-helical domain (TM5) of the histamine H2 receptor, were considered. It was established that histamine can only bind via two H-bonds with a pure α-helical TM5, when the binding site consists of Tyr182/Asp186 and not of the Asp186/Thr190 couple. In this second part, two particular three-dimensional models of G-protein-coupled receptors previously reported in the literature are compared in relation to agonist binding at the histamine H2 receptor. The differences between these two receptor models are discussed in relation to the general benefits and limitations of such receptor models. Also the pros and cons of simplifying receptor models to a relatively easy-to-deal-with oligopeptide for mimicking agonistic binding to an agonistic binding site are addressed. Within complete receptor models, the simultaneous interaction of histamine with both TM3 and TM5 can be analysed. The earlier suggested three-point interaction of histamine with the histamine H2 receptor can be explored. Our results demonstrate that a three-point interaction cannot be established for the Asp98/Asp186/Thr190 binding site in either of the investigated receptor models, whereas histamine can form three H-bonds in case the agonistic binding site is constituted by the Asp98/Tyr182/Asp186 triplet. Furthermore this latter triplet is seen to be able to accommodate a series of substituted histamine analogues with known histamine H2 agonistic activity as well.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00124477

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Hybrid-hybrid matrix structural refinement of a DNA three-way junction from 3D NOESY-NOESY (1999)

Thiviyanathan, Varatharasa ; Luxon, Bruce A. ; Leontis, Neocles B. ; [et al.]

Springer

Journal of biomolecular NMR 14 (1999), S. 209-221

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ISSN: 1573-5001

Keywords: MORASS ; NOESY-NOESY ; relaxation matrix analysis ; three-way junction

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Abstract Homonuclear 3D NOESY-NOESY has shown great promise for the structural refinement of large biomolecules. A computationally efficient hybrid-hybrid relaxation matrix refinement methodology, using 3D NOESY-NOESY data, was used to refine the structure of a DNA three-way junction having two unpaired bases at the branch point of the junction. The NMR data and the relaxation matrix refinement confirm that the DNA three-way junction exists in a folded conformation with two of the helical stems stacked upon each other. The third unstacked stem extends away from the junction, forming an acute angle (∼60° ) with the stacked stems. The two unpaired bases are stacked upon each other and are exposed to the solvent. Helical parameters for the bases in all three strands show slight deviations from typical values expected for right-handed B-form DNA. Inter-nucleotide imino-imino NOEs between the bases at the branch point of the junction show that the junction region is well defined. The helical stems show mobility (± 20° ) indicating dynamic processes around the junction region. The unstacked helical stem adjacent to the unpaired bases shows greater mobility compared to the other two stems. The results from this study indicate that the 3D hybrid-hybrid matrix MORASS refinement methodology, by combining the spectral dispersion of 3D NOESY-NOESY and the computational efficiency of 2D refinement programs, provides an accurate and robust means for structure determination of large biomolecules. Our results also indicate that the 3D MORASS method gives higher quality structures compared to the 2D complete relaxation matrix refinement method.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1008330011425

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