1. Determination of Protein Structures in Solution Using Nmr Data and Impact
- Author
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Douglas B. Kitchen, Arthur Pardi, Dorothea Kominos, Ronald M. Levy, Donna A. Bassolino, and Fumio Hirata
- Subjects
Quantitative Biology::Biomolecules ,Monte Carlo method ,Ab initio ,Function (mathematics) ,01 natural sciences ,Matrix (mathematics) ,Protein structure ,Chain (algebraic topology) ,Search algorithm ,0103 physical sciences ,Metric (mathematics) ,010306 general physics ,Biological system ,Algorithm ,Mathematics - Abstract
A new procedure for generating and refining protein structures that satisfy constraints derived from two-dimensional data includes an internal coordinate Monte Carlo search algorithm for conformational sampling and a simple target function with terms for describing the structural information contained in 2-D NMR spectra. Solution structures of the peptide neutrophil defensin NP-5, generated with a metric matrix distance geometry algorithm, are refined with the Monte Carlo procedure, leading to structures with interproton distances that are closer to the bounds observed in the NMR data and have improved local geometry. In model studies, an ..cap alpha..-helical peptide is rapidly folded from an extended chain when NMR distance constraints corresponding to an ..cap alpha..-helix are used as input parameters. The ab initio folding of NP-5 from an extended chain and possible application to studying protein during pathways are discussed. Calculations were carried out with the program package IMPACT (Ingtegrated Modeling Program Using Applied Chemical Theory), under development. An overview of IMPACT is presented.
- Published
- 1988
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