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Interactions between mucopolysaccharides and cationic polypeptides in aqueous solution: Hyaluronic acid, heparitin sulfate, and keratan sulfate

✍ Scribed by R. A. Gelman; J. Blackwell

Publisher
Wiley (John Wiley & Sons)
Year
1974
Tongue
English
Weight
847 KB
Volume
13
Category
Article
ISSN
0006-3525

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✦ Synopsis

Abstract

Circular dichroism spectroscopy has been used to study the interactions of hyaluronic acid, heparitin sulfate, and keratan sulfate with cationic polypeptides. The results indicate that the presence of these mucopolysaccharides has an effect in the conformation of poly(L‐lysine) and poly(L‐arginine), such that the former adopts the “random” form and the latter takes up the α‐helical conformation, rather than the “charged coil” form expected at neutral pH. The relative strengths of the interactions can be judged from the melting temperatures above which they are disrupted. Both the stoichiometry and the strength of the interactions depend on the position, number, and type of anionic groups attached to the polysaccharide backbone. Such considerations place the six common mucopolysaccharides in order of increasing strength of interaction: hyaluronic acid < chondroitin 4‐sulfate < heparitin sulfate < chondroitin 6‐sulfate < keratan sulfate ⩽ dermatan sulfate. These differences should be paralleled by differences in the interaction of the mucopolysaccharides with collagen and fibrous proteins.

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✍ R. A. Gelman; J. Blackwell 📂 Article 📅 1973 🏛 Wiley (John Wiley & Sons) 🌐 English ⚖ 704 KB

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The behaviour of hyaluronic acid (Hyal) and sulfated hyaluronic acid (HyalS) in aqueous solution was investigated in terms of protonation and complex formation by thermodynamic and spectroscopic techniques. The presence of the scarcely protonable sulfate groups in the polymer chain provided the Hyal

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## Abstract The interactions between chondroitin‐6‐sulfate (chondroitin sulfate C) and poly‐L‐lysine have been studied as models for investigation of possible complex formation between fibrous proteins and mucopolysaccharides. Results obtained using circular dichroism spectroscopy show that poly‐L‐