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Abstract
The reactions of purified, homogeneous bovine testicular hyaluronidase have been studied with radioactively labeled oligomers of hyalobiuronic acid, (GlcUA-GlcNAc)n, as substrates and acceptors. Transglycosylation occurs by transfer of a glycosyl residue with retention of configuration from a leaving group to an acceptor. On the basis of detailed examination of cleavage and transglycosylation patterns for the trimer; comparison of trimer, tetramer, and polymer as substrates; comparison of acceptors; equilibrium binding; and other data, it is proposed that the enzyme's active site consists of five subsites for hyalobiuronate residues. In the terminology of Schechter, I., and Berger, A. ((1966) Biochemistry 5, 3371), these are s2-s1-s' 2-s3, where the reducing terminus is to the right, and cleavage occurs between s1 and s' 1. It is proposed that subsite s'2 has a high affinity for a substrate residue, while s1 and s'1 have low substrate affinity, and s2 and s' 3 are intermediate in affinity. This proposal is seen to have mechanistic implications. The reactions of several substrates show similar bell-shaped pH dependences, with optima in the region of pH 5 to 5.5.
Highlights
The reactions of purified, homogeneous bovine testicular hyaluronidase have been studied with radioactively labeled oligomers of hyalobiuronic acid, (GlcUA-GlcNAc), as substrates and acceptors
The active site of the enzyme appears to be quite large, with its reactivity toward oligomers increasing with their size at least to the octasaccharide (GlcUA-GlcNAc),’
Little has been added to our understanding of the mechanism of action of bovine testicular hyaluronidase since
Summary
The reactions of purified, homogeneous bovine testicular hyaluronidase have been studied with radioactively labeled oligomers of hyalobiuronic acid, (GlcUA-GlcNAc),, as substrates and acceptors. Transglycosylation occurs by transfer of a glycosyl residue with retention of configuration from a leaving group to an acceptor. On the basis of detailed examination of cleavage and transglycosylation patterns for the trimer; comparison of trimer, tetramer, and polymer as substrates; comparison of acceptors; equilibrium binding; and other data, it is proposed that the enzyme’s active site consists of five subsites for hyalobiuronate residues. Detailed studies of other glycanohydrolases have led recently to interpretations of their reactions in terms of descriptions of their active sites on the molecular level [4,5,6]. Little has been added to our understanding of the mechanism of action of bovine testicular hyaluronidase since
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