Evidence for the Extended Helical Nature of Polysaccharide Epitopes. The 2.8 A Resolution Structure and Thermodynamics of Ligand Binding of an Antigen Binding Fragment Specific for Alpha-(2-->8)-polysialic Acid

Overview

Journal Biochemistry

Specialty Biochemistry

Date 1995 May 23

PMID 7538787

Citations 33

Authors

S V Evans

B W Sigurskjold

H J Jennings

J R Brisson

R To

W C Tse

E Altman

M Frosch

C Weisgerber

H D Kratzin

Affiliations

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Abstract

The antigen binding fragment from an IgG2a kappa murine monoclonal antibody with specificity for alpha-(2-->8)-linked sialic acid polymers has been prepared and crystallized in the absence of hapten. Crystals were grown by vapor diffusion equilibrium with 16-18% polyethylene glycol 4000 solutions. The structure was solved by molecular replacement methods and refined to a conventional R factor of 0.164 for data to 2.8 A. The binding site is observed to display a shape and distribution of charges that is complementary to that of the predicted conformation of the oligosaccharide epitope. A thermodynamic description of ligand binding has been compiled for oligosaccharides ranging in length from 9 to 41 residues, and the data for the largest ligand has been used in a novel way to estimate the size of the antigen binding site. A model of antigen binding is presented that satisfies this thermodynamic data, as well as a previously reported requirement of conformational specificity of the oligosaccharide. X-ray crystallographic and thermodynamic evidence are consistent with a binding site that accommodates at least eight sialic acid residues.

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