Structural effects of fluorine substitution in proteins

Autor:	D. H. Gregory, J. T. Gerig
Rok vydání:	1991
Předmět:	Hydrogen Computer aid chemistry.chemical_element A protein General Chemistry Energy minimization Spin isomers of hydrogen Computational Mathematics Crystallography chemistry Computational chemistry Fluorine Conformational energy Electronic properties
Zdroj:	Journal of Computational Chemistry. 12:180-185
ISSN:	1096-987X 0192-8651
DOI:	10.1002/jcc.540120207
Popis:	The consequences of substitution of fluorine for the para hydrogen of a phenylalanine residue in ribonuclease-S were investigated by conformational energy calculations using the AMBER force field. Both the fluorine-containing protein and the corresponding nonfluorinated material were subjected to conformational adjustment through energy minimization and the minimum energy structures so defined were compared. Fluorine substitution leads to small alterations in many atomic positions in the protein, with adjustments at at sites more than 0.5 nm from the fluorine appearing to be somewhat larger than those within the immediate vicinity of the fluorine. Several atoms proximate to the fluorine atom were observed to move toward the fluorine while others in the same vicinity move away. The greater bulk of the fluorine atom and the strongly different electronic properties of fluorine compared to hydrogen thus appear to be insufficient to cause a consistent, unidirectional change in nearest-neighbor interactions upon introduction of a fluorine atom into a protein structure. Virtually all changes in atomic positions that are predicted by these calculations would be barely detectable by a crystallographic study with a resolution of 0.2 nm.
Databáze:	OpenAIRE
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