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1

Digitale Medien

STRUCTURAL SYMMETRY AND PROTEIN FUNCTION (2000)

Goodsell, David S. ; Olson, Arthur J.

Palo Alto, Calif. : Annual Reviews

Annual Review of Biophysics and Biomolecular Structure 29 (2000), S. 105-153

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ISSN: 1056-8700

Quelle: Annual Reviews Electronic Back Volume Collection 1932-2001ff

Thema: Biologie , Physik

Notizen: Abstract The majority of soluble and membrane-bound proteins in modern cells are symmetrical oligomeric complexes with two or more subunits. The evolutionary selection of symmetrical oligomeric complexes is driven by functional, genetic, and physicochemical needs. Large proteins are selected for specific morphological functions, such as formation of rings, containers, and filaments, and for cooperative functions, such as allosteric regulation and multivalent binding. Large proteins are also more stable against denaturation and have a reduced surface area exposed to solvent when compared with many individual, smaller proteins. Large proteins are constructed as oligomers for reasons of error control in synthesis, coding efficiency, and regulation of assembly. Symmetrical oligomers are favored because of stability and finite control of assembly. Several functions limit symmetry, such as interaction with DNA or membranes, and directional motion. Symmetry is broken or modified in many forms: quasisymmetry, in which identical subunits adopt similar but different conformations; pleomorphism, in which identical subunits form different complexes; pseudosymmetry, in which different molecules form approximately symmetrical complexes; and symmetry mismatch, in which oligomers of different symmetries interact along their respective symmetry axes. Asymmetry is also observed at several levels. Nearly all complexes show local asymmetry at the level of side chain conformation. Several complexes have reciprocating mechanisms in which the complex is asymmetric, but, over time, all subunits cycle through the same set of conformations. Global asymmetry is only rarely observed. Evolution of oligomeric complexes may favor the formation of dimers over complexes with higher cyclic symmetry, through a mechanism of prepositioned pairs of interacting residues. However, examples have been found for all of the crystallographic point groups, demonstrating that functional need can drive the evolution of any symmetry.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1146/annurev.biophys.29.1.105

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2

Digitale Medien

Inhibition of phosphorylcholine binding to antibodies using synthetic peptides (1987)

Lai, Eric H. C. ; Rabat, Elvin A. ; Meienhofer, Johannes ; [weitere]

[s.l.] : Nature Publishing Group

Nature 325 (1987), S. 168-171

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ISSN: 1476-4687

Quelle: Nature Archives 1869 - 2009

Thema: Biologie , Chemie und Pharmazie , Medizin , Allgemeine Naturwissenschaft , Physik

Notizen: [Auszug] The combining site of an antibody is formed by the three hypervariable or complementarity-determining regions (CDRs) of its heavy and light chains7'8. The nature and shape of the combining site and its interaction with antigen are determined primarily by the amino-acid sequences in the CDRs. Of the ...

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1038/325168a0

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3

Digitale Medien

Structural mapping of CD134 residues critical for interaction with feline immunodeficiency virus (2005)

de Parseval, Aymeric ; Chatterji, Udayan ; Morris, Garrett ; [weitere]

[s.l.] : Nature Publishing Group

Nature structural & molecular biology 12 (2005), S. 60-66

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ISSN: 1545-9985

Quelle: Nature Archives 1869 - 2009

Thema: Biologie , Medizin

Notizen: [Auszug] CD134 is a primary binding receptor for feline immunodeficiency virus (FIV), and with CXCR4 facilitates infection of CD4+ T cells. Human CD134 fails to support FIV infection. To delineate the regions important for defining virus specificity of CD134, we exchanged domains between human and feline ...

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1038/nsmb872

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4

Digitale Medien

Mobility and evolutionary variability factors in protein antigenicity (reply) (1985)

TAINER, JOHN A. ; GETZOFF, ELIZABETH D. ; ALEXANDER, HANNAH ; [weitere]

[s.l.] : Nature Publishing Group

Nature 317 (1985), S. 90-90

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ISSN: 1476-4687

Quelle: Nature Archives 1869 - 2009

Thema: Biologie , Chemie und Pharmazie , Medizin , Allgemeine Naturwissenschaft , Physik

Notizen: [Auszug] TAINER ET AL. REPLY-Jemmerson and Paterson suggest a correlation between evolutionary variability and antigenicity, while noting that such variable regions are likely to be subject to fewer structural constraints. Their point is well taken for the generalization of the relationship between local ...

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1038/317090b0

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5

Digitale Medien

The reactivity of anti-peptide antibodies is a function of the atomic mobility of sites in a protein (1984)

Tainer, John A. ; Getzoff, Elizabeth D. ; Alexander, Hannah ; [weitere]

[s.l.] : Nature Publishing Group

Nature 312 (1984), S. 127-134

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ISSN: 1476-4687

Quelle: Nature Archives 1869 - 2009

Thema: Biologie , Chemie und Pharmazie , Medizin , Allgemeine Naturwissenschaft , Physik

Notizen: [Auszug] To study the nature of antigenic recognition, antibodies have been prepared against a set of peptide sequences representing both highly mobile and well-ordered regions of myohaemerythrin, based on X-ray crystallographic temperature factors. Anti-peptide antibodies against highly mobile regions ...

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1038/312127a0

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6

Digitale Medien

Distributed automated docking of flexible ligands to proteins: Parallel applications of AutoDock 2.4 (1996)

Morris, Garrett M. ; Goodsell, David S. ; Huey, Ruth ; [weitere]

Springer

Journal of computer aided molecular design 10 (1996), S. 293-304

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ISSN: 1573-4951

Schlagwort(e): Inhibitor ; Receptor ; Simulated annealing ; Drug design

Quelle: Springer Online Journal Archives 1860-2000

Thema: Chemie und Pharmazie

Notizen: Summary AutoDock 2.4 predicts the bound conformations of a small, flexible ligand to a nonflexible macromolecular target of known structure. The technique combines simulated annealing for conformation searching with a rapid grid-based method of energy evaluation based on the AMBER force field. AutoDock has been optimized in performance without sacrificing accuracy; it incorporates many enhancements and additions, including an intuitive interface. We have developed a set of tools for launching and analyzing many independent docking jobs in parallel on a heterogeneous network of UNIX-based workstations. This paper describes the current release, and the results of a suite of diverse test systems. We also present the results of a systematic investigation into the effects of varying simulated-annealing parameters on molecular docking. We show that even for ligands with a large number of degrees of freedom, root-mean-square deviations of less than 1 Å from the crystallographic conformation are obtained for the lowest-energy dockings, although fewer dockings find the crystallographic conformation when there are more degrees of freedom.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00124499

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7

Digitale Medien

Reduced surface: An efficient way to compute molecular surfaces (1996)

Sanner, Michel F. ; Olson, Arthur J. ; Spehner, Jean-Claude

New York : Wiley-Blackwell

Biopolymers 38 (1996), S. 305-320

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ISSN: 0006-3525

Schlagwort(e): Chemistry ; Polymer and Materials Science

Quelle: Wiley InterScience Backfile Collection 1832-2000

Thema: Chemie und Pharmazie

Notizen: Because of their wide use in molecular modeling, methods to compute molecular surfaces have received a lot of interest in recent years. However, most of the proposed algorithms compute the analytical representation of only the solvent-accessible surface. There are a few programs that compute the analytical representation of the solvent-excluded surface, but they often have problems handling singular cases of self-intersecting surfaces and tend to fail on large molecules (more than 10,000 atoms). We describe here a program called MSMS, which is shown to be fast and reliable in computing molecular surfaces. It relies on the use of the reduced surface that is briefly defined here and from which the solvent-accessible and solvent-excluded surfaces are computed. The four algorithms composing MSMS are described and their complexity is analyzed. Special attention is given to the handling of self-intersecting parts of the solvent-excluded surface called singularities. The program has been compared with Connolly's program PQMS [M. L. Connolly (1993) Journal of Molecular Graphics, Vol. 11, pp. 139-141] on a set of 709 molecules taken from the Brookhaven Data Base. MSMS was able to compute topologically correct surfaces for each molecule in the set. Moreover, the actual time spent to compute surfaces is in agreement with the theoretical complexity of the program, which is shown to be O[n log(n)] for n atoms. On a Hewlett-Packard 9000/735 workstation, MSMS takes 0.73 s to produce a triangulated solvent-excluded surface for crambin (1crn, 46 residues, 327 atoms, 4772 triangles), 4.6 s for thermolysin (3tln, 316 residues, 2437 atoms, 26462 triangles), and 104.53 s for glutamine synthetase (2gls, 5676 residues, 43632 atoms, 476665 triangles). © 1996 John Wiley & Sons, Inc.

Zusätzliches Material: 15 Ill.

Materialart: Digitale Medien

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8

Digitale Medien

Automated docking in crystallography: Analysis of the substrates of aconitase (1993)

Goodsell, David S. ; Lauble, Hans ; Stout, C. David ; [weitere]

New York, NY : Wiley-Blackwell

Proteins: Structure, Function, and Genetics 17 (1993), S. 1-10

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ISSN: 0887-3585

Schlagwort(e): docking ; active site ; aconitase ; structure prediction ; Chemistry ; Biochemistry and Biotechnology

Quelle: Wiley InterScience Backfile Collection 1832-2000

Thema: Medizin

Notizen: Automated docking of substrates to proteins of known structure aids the process of crystallographic analysis in two ways. First, automated docking can be used to generate a small number of starting models for substrates using only protein coordinates from an early stage of refinement. Second, automated docking provides a method for exploring aspects of catalysis that are inaccessible to crystallography by postulating binding modes of catalytic intermediates. This paper describes the use of automated docking to explore the binding of substrates to aconitase. The technique starts with a substrate molecule in an arbitrary configuration and position and finds favorable docked configrations in a (static) protein active site based on a molecular mechanics type force field. Using protein coordinates from an early stage of refinement of an aconitase-isocitrate complex, we successfully predicted the binding configuration of isocitrate. Four configurations were found, the energetically most favorable of which fit the observed electron density well and was used as a starting model for further refinement. Two configurations were found in citrate docking experiments, the second of which approximates the mode of substrate binding in an aconitasenitrocitrate complex. We were also able to propose two binding modes of the catalytic intermediate cis-aconitate. These correspond closely to the isocitrate and the citrate binding modes. The relation of these new results to the proposed reaction mechanism is discussed. © 1993 Wiley-Liss, Inc.

Zusätzliches Material: 7 Ill.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1002/prot.340170104

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9

Digitale Medien

Adjusting potential energy functions for lattice models of chain molecules (1996)

Reva, Boris A. ; Finkelstein, Alexei V. ; Sanner, Michel F. ; [weitere]

New York, NY : Wiley-Blackwell

Proteins: Structure, Function, and Genetics 25 (1996), S. 379-388

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ISSN: 0887-3585

Schlagwort(e): protein modeling ; lattice approximation error ; adjusting of energy functions ; Chemistry ; Biochemistry and Biotechnology

Quelle: Wiley InterScience Backfile Collection 1832-2000

Thema: Medizin

Notizen: Lattice models of proteins can approximate off-lattice structures to arbitrary precision with RMS (root mean squared) deviations roughly equal to half the lattice spacing (Rykunov et al., Proteins 22:100-109, 1995; Reva et al., J. Comp. Biol., 1996). However, even small distortions in the positions of chain links lead to significant errors in lattice-based energy calculations (Reva et al., J. Comp. Chem., 1996). These errors arise mainly from rigid interactions (such as steric repulsion) which change their energies considerably at a range which is much smaller than the usual accuracy of lattice modeling (〉1.0 Å). To reduce this error, we suggest a procedure of adjusting energy functions to a given lattice. The general approach is illustrated with energy calculations based on pairwise potentials by Kolinski et al. (J. Chem. Phys. 98:1-14, 1993). At all the lattice spacings, from 0.5-3.8 Å, the lattice-adjusted potentials improve the accuracy of lattice-based energy calculations and Increase the correlations between off-lattice and lattice energies. © 1996 Wiley-Liss, Inc.

Zusätzliches Material: 5 Ill.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1002/prot.9

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10

Digitale Medien

Building self-avoiding lattice models of proteins using a self-consistent field optimization (1996)

Reva, Boris A. ; Finkelstein, Alexei V. ; Rykunov, Dmitrii S. ; [weitere]

New York, NY : Wiley-Blackwell

Proteins: Structure, Function, and Genetics 26 (1996), S. 1-8

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ISSN: 0887-3585

Schlagwort(e): lattice models of proteins ; self-consistent field optimization ; self-avoiding ; Chemistry ; Biochemistry and Biotechnology

Quelle: Wiley InterScience Backfile Collection 1832-2000

Thema: Medizin

Notizen: We present an algorithm to build self-avoiding lattice models of chain molecules with low RMS deviation from their actual 3D structures. To find the optimal coordinates for the lattice chain model, we minimize a function that consists of three terms: (1) the sum of squared deviations of link coordinates on a lattice from their off-lattice values, (2) the sum of “short-range” terms, penalizing violation of chain connectivity, and (3) the sum of “long-range” repulsive terms, penalizing chain self-intersections. We treat this function as a chain molecule “energy” and minimize it using self-consistent field (SCF) theory to represent the pairwise link repulsions as 3D fields acting on the links. The statistical mechanics of chain molecules enables computation of the chain distribution in this field on the lattice. The field is refined by iteration to become self-consistent with the chain distribution, then dynamic programming is used to find the optimal lattice model as the “lowest-energy” chain pathway in this SCF. We have tested the method on one of the coarsest (and most difficult) lattices used for model building on proteins of all structural types and show that the method is adequate for building self-avoiding models of proteins with low RMS deviations from the actual structures. © 1996 Wiley-Liss, Inc.

Zusätzliches Material: 2 Ill.

Materialart: Digitale Medien

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