E. D. Getzoff scite author profile

The chemistry of antibody recognition was studied by mapping the antigenicity of the protein myohemerythrin with peptide homologs of the protein sequence. The results suggest that the entire protein surface is antigenic, but the probability of there being antibodies to a given site is influenced by local stereochemistry. Although accessible to an antibody binding domain, the least reactive positions cluster in the most tightly packed and least mobile regions and are closely associated with narrow, concave grooves in the molecular surface containing bound water molecules. The most frequently recognized sites form three-dimensional superassemblies characterized by high local mobility, convex surface shape, and often by negative electrostatic potential.

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Electrostatic orientation of the electron-transfer complex between plastocyanin and cytochrome c

Roberts

Freeman

Olson

et al. 1991

Journal of Biological Chemistry

111

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Mechanisms of Antibody Binding to a Protein

Getzoff

Geysen²,

Rodda³

et al. 1987

Science

200

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The mechanisms of antibody binding to a protein were studied by an analysis of specific amino acid residues critical to nine antigenic sites on myohemerythrin. Rabbit antisera to the whole protein were assayed for binding to more than 1500 distinct peptide analogs differing from the protein sequence by single amino acid replacements. The results, combined with information from the three-dimensional crystallographic structure, were used to evaluate probable mechanisms of antibody binding at individual sites. The data from all sites examined indicate that initial binding to solvent-exposed amino acid residues may promote local side-chain displacements and thereby allow the participation of other, previously buried, residues.

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Spherical harmonic molecular surfaces

Max

Getzoff

1988

IEEE Comput. Grap. Appl.

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E. D. Getzoff

Chemistry of Antibody Binding to a Protein

Electrostatic orientation of the electron-transfer complex between plastocyanin and cytochrome c

Mechanisms of Antibody Binding to a Protein

Spherical harmonic molecular surfaces

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