1so0
From Proteopedia
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Crystal structure of human galactose mutarotase complexed with galactose
Overview
Galactose mutarotase catalyzes the conversion of beta-d-galactose to, alpha-d-galactose during normal galactose metabolism. The enzyme has been, isolated from bacteria, plants, and animals and is present in the, cytoplasm of most cells. Here we report the x-ray crystallographic, analysis of human galactose mutarotase both in the apoform and complexed, with its substrate, beta-d-galactose. The polypeptide chain folds into an, intricate array of 29 beta-strands, 25 classical reverse turns, and 2, small alpha-helices. There are two cis-peptide bonds at Arg-78 and, Pro-103. The sugar ligand sits in a shallow cleft and is surrounded by, Asn-81, Arg-82, His-107, His-176, Asp-243, Gln-279, and Glu-307. Both the, side chains of Glu-307 and His-176 are in the proper location to act as a, catalytic base and a catalytic acid, respectively. These residues are, absolutely conserved among galactose mutarotases. To date, x-ray models, for three mutarotases have now been reported, namely that described here, and those from Lactococcus lactis and Caenorhabditis elegans. The, molecular architectures of these enzymes differ primarily in the loop, regions connecting the first two beta-strands. In the human protein, there, are six extra residues in the loop compared with the bacterial protein for, an approximate longer length of 9 A. In the C. elegans protein, the first, 17 residues are missing, thereby reducing the total number of beta-strands, by one.
About this Structure
1SO0 is a Single protein structure of sequence from Homo sapiens with GAL as ligand. Active as Aldose 1-epimerase, with EC number 5.1.3.3 Full crystallographic information is available from OCA.
Reference
Molecular structure of human galactose mutarotase., Thoden JB, Timson DJ, Reece RJ, Holden HM, J Biol Chem. 2004 May 28;279(22):23431-7. Epub 2004 Mar 16. PMID:15026423
Page seeded by OCA on Mon Nov 12 19:15:59 2007
