D. L. Beveridge scite author profile

A new procedure for the analysis of the structure and molecular dynamics of duplex DNA is introduced, in which comprehensive visualization of results and pattern recognition is greatly facilitated. The method involves determining the values of the conformational and helicoidal parameters for each structure entering the analysis using the method "Curves" developed by Lavery and Sklenar, J. Biomol. Str. Dyn. 6, 63 (1988), followed by a novel computer graphic display of the results. The graphic display is organized systematically using conformation wheels, or "dials", for each IUPAC torsional parameter and "windows" on the range of values assumed by the linear and angular helicoidal parameters, and is presented in a form isomorphous with the structure per se. The complete time evolution of the conformational and helicoidal parameters of a DNA double helix can then be depicted in a set of six composite figures. Dynamical aspects of helix bending are also subsumed in this analysis. The procedure is illustrated with an analysis of the structures of canonical A and B forms of DNA and the 300 degrees K native dodecamer duplex d(CGCGAATTCGCG). The "dials and windows" are then used for a comprehensive analysis of 30 psec of molecular dynamics on the dodecamer in the vicinity of a canonical B-DNA energy minimum. This involves presentation of the time evolution of 206 conformational and 230 helicoidal parameters for the dodecamer. A number of interesting structural features can be recognized in the analysis, including crankshaft motions, BI - BII transitions, sugar repuckerings, and a description of spontaneous helix bending at what corresponds to the 1 degrees and 2 degrees "hinge points" indicated in the crystal structure. Our approach is expected to be directly useful for critical analysis of the effects of various assumptions about force field parameters, hydration and electrostatic effects and thus contribute to the development of reliable simulation protocols for nucleic acid systems. Extension of the method to present differential changes in conformational and helicoidal parameters is expected to be valuable for the analysis of structural and molecular dynamics studies of the reorganization and adaptation of DNA on complexation with various drugs and regulatory proteins.

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Molecular dynamics simulations of an oligonucleotide duplex with adenine tracts phased by a full helix turn 1 1Edited by B. Honig

Young

Beveridge

1998

Journal of Molecular Biology

123

101

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Molecular Dynamics Simulation of a Class A .beta.-Lactamase: Structural and Mechanistic Implications

Vijayakumar¹,

Ravishanker²,

Pratt³

et al. 1995

J. Am. Chem. Soc.

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Molecular Dynamics Simulations on the Hydration, Structure and Motions of DNA Oligomers

Beveridge¹,

Swaminathan²,

Ravishanker³

et al. 1993

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Grand canonical Monte Carlo simulations on aqueous solutions of sodium chloride and sodium DNA: excess chemical potentials and sources of nonideality in electrolyte and polyelectrolyte solutions

Jayaram¹,

Beveridge²

1991

J. Phys. Chem.

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Differential stability of beta-sheets and alpha-helices in beta-lactamase: a high temperature molecular dynamics study of unfolding intermediates

Vijayakumar¹,

Vishveshwara²,

Ravishanker³

et al. 1993

Biophysical Journal

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beta-Lactamase, which catalyzes beta-lactam antibiotics, is prototypical of large alpha/beta proteins with a scaffolding formed by strong noncovalent interactions. Experimentally, the enzyme is well characterized, and intermediates that are slightly less compact and having nearly the same content of secondary structure have been identified in the folding pathway. In the present study, high temperature molecular dynamics simulations have been carried out on the native enzyme in solution. Analysis of these results in terms of root mean square fluctuations in cartesian and [phi, psi] space, backbone dihedral angles and secondary structural hydrogen bonds forms the basis for an investigation of the topology of partially unfolded states of beta-lactamase. A differential stability has been observed for alpha-helices and beta-sheets upon thermal denaturation to putative unfolding intermediates. These observations contribute to an understanding of the folding/unfolding processes of beta-lactamases in particular, and other alpha/beta proteins in general.

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The dynemicin-DNA intercalation complex: a model based on DNA affinity cleavage and molecular dynamics simulation

Langley¹,

Doyle²,

Beveridge³

1991

J. Am. Chem. Soc.

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D. L. Beveridge

The nucleic acid database. A comprehensive relational database of three-dimensional structures of nucleic acids

Conformational and Helicoidal Analysis of 30 PS of Molecular Dynamics on the d(CGCGAATTCGCG) Double Helix: “Curves”, Dials and Windows

Molecular dynamics simulations of an oligonucleotide duplex with adenine tracts phased by a full helix turn 1 1Edited by B. Honig

Molecular Dynamics Simulation of a Class A .beta.-Lactamase: Structural and Mechanistic Implications

Molecular Dynamics Simulations on the Hydration, Structure and Motions of DNA Oligomers

Grand canonical Monte Carlo simulations on aqueous solutions of sodium chloride and sodium DNA: excess chemical potentials and sources of nonideality in electrolyte and polyelectrolyte solutions

Differential stability of beta-sheets and alpha-helices in beta-lactamase: a high temperature molecular dynamics study of unfolding intermediates

The dynemicin-DNA intercalation complex: a model based on DNA affinity cleavage and molecular dynamics simulation

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