Direct NOE refinement of biomolecular structures using 2D NMR data.

A.M. Bonvin; R. Boelens; R. Kaptein

doi:10.1007/BF01875523

Direct NOE refinement of biomolecular structures using 2D NMR data.

A.M. Bonvin, R. Boelens, R. Kaptein

Sub NMR Spectroscopy

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

A set of computer programs called DINOSAUR has been developed, which allows the refinement of biomolecular structures directly from 2D NOE intensities. The NOE restraining potential implemented emphasises the weak intensities corresponding to larger distances which are more likely to determine the three-dimensional structure. An approximation based on a two-spin approximation is proposed for the gradient of the NOE intensities instead of the exact solution which is extremely time-consuming. The DINOSAUR routines have been implemented in various refinement programs (Distance bound Driven Dynamics, Molecular Dynamics and Energy Minimisation) and tested on an eight-residue model peptide.

Original language	English
Pages (from-to)	305-309
Number of pages	5
Journal	Journal of Biomolecular NMR
Volume	1
Issue number	3
DOIs	https://doi.org/10.1007/BF01875523
Publication status	Published - 1 Sept 1991

Keywords

protein
article
chemical structure
chemistry
software
mathematics
methodology
nuclear magnetic resonance spectroscopy
protein conformation

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10.1007/BF01875523

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AB - A set of computer programs called DINOSAUR has been developed, which allows the refinement of biomolecular structures directly from 2D NOE intensities. The NOE restraining potential implemented emphasises the weak intensities corresponding to larger distances which are more likely to determine the three-dimensional structure. An approximation based on a two-spin approximation is proposed for the gradient of the NOE intensities instead of the exact solution which is extremely time-consuming. The DINOSAUR routines have been implemented in various refinement programs (Distance bound Driven Dynamics, Molecular Dynamics and Energy Minimisation) and tested on an eight-residue model peptide.

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KW - chemical structure

KW - chemistry

KW - software

KW - mathematics

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KW - nuclear magnetic resonance spectroscopy

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Direct NOE refinement of biomolecular structures using 2D NMR data.

Abstract

Keywords

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