Abstract
Mixing of native concanavalin A (Con A) and its dimeric succinylated derivative (succinyl-Con A) in glycine-HCl buffer, pH 4.5, resulted in the formation of a new chemical species that could be separated as a unique fraction by DEAE-cellulose chromatography or by gel electrophoresis. The molecular weight of this new component, which contained the subunits (Mr= 26,000) of native Con A and its succinyl derivative in equimolar amounts, was 50,000 at both pH 5 and pH 7. These data suggest that subunit exchange between 2 chemically distinct Con A molecules yields a hybrid molecule consisting of one protomer of native Con A and one protomer of succinyl-Con A. Similar exchange reactions and hybrid molecules were also observed after mixing acetyl-Con A and succinyl-Con A. These procedures provide several new chemical variants of the Con A molecule that may be useful for the analysis of lectin-cell surface interactions.
Highlights
A) in glycine-HCl buffer, pH 4.5, resulted in the formation of a new chemical species that could be separated as a unique fraction by DEAE-cellulose chromatography or by gel electrophoresis
The molecular weight of this new component, which contained the subunits (M, = 26,000) of native Con A and its succinyl derivative in equimolar amounts, was 50,000 at both pH 5 and pH 7. These data suggest that subunit exchange between 2 chemically distinct Con A molecules yields a hybrid molecule consisting of one protomer of native Con A and one protomer of succinyl-Con
Our results suggest a general method for obtaining new chemical variants of the
Summary
The molecular weight of this new component, which contained the subunits (M, = 26,000) of native Con A and its succinyl derivative in equimolar amounts, was 50,000 at both pH 5 and pH 7. These data suggest that subunit exchange between 2 chemically distinct Con A molecules yields a hybrid molecule consisting of one protomer of native Con A and one protomer of succinyl-Con. A. Previous structural studies [3, 4] have shown that Con A’ is composed of identical subunits of molecular weight 26,000; each subunit contains 1
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