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GrainGenes Reference Report: EJB-233-27

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Reference	EJB-233-27
Title	Site-directed mutagenesis and sugar-binding properties of the wheat germ agglutinin mutants Tyr73Phe and Phe116Tyr
Journal	European Journal of Biochemistry
Year	1995
Volume	233
Pages	27-34
Author	Nagahora H Harata K Muraki M Jigami Y
Abstract	Wheat germ agglutinin is a dimeric lectin composed of two identical subunits Each subunit consists of four homologous hevein-like domains of 42 or 43 amino acids each Amino acid residues at the same position in each domain involved in sugar binding are thought to play a similar role in sugar binding In order to clarify the role of the amino acid residue at domain position 30 of wheat germ agglutinin isolectin 2 (WGA2) in sugar binding, two WGA2 variants each containing a mutation, either Tyr73 leads to Phe (domain B) or Phe116 leads to Tyr (domain C), were produced The binding activity for (GlcNAc)3 and the three-dimensional structure of these mutants were characterized by comparing with the properties of wild-type WGA2 Equilibrium dialysis experiments using (GlcNAc)3 indicated that the mutation Tyr73 leads to Phe reduced the overall sugar-binding activity at both pH 5.9 and pH 4.7. In addition, positive cooperativity toward (GlcNAc)3 binding was observed at pH 4.7. In contrast, the mutation of Phe116 leads to Tyr increased the overall sugar-binding activity at pH 5.9, but reduced this activity at pH 4.7 without changing the number of sugar-binding sites. Positive cooperativity was not observed at pH 5.9 or pH 4.7. X-ray crystallographic analysis of mutant WGA2 revealed that the mutation of Tyr73 leads to Phe caused a side chain movement of the Glu115 residue of the opposite subunit that formed a hydrogen bond with Tyr73 in wild-type WGA2. No changes were observed in the backbone structure and the disposition of the benzene ring of Phe73. The mutation Phe116 leads to Tyr caused the formation of a new hydrogen bond between Tyr116 and Glu72 of the opposite subunit. The changes. in the sugar-binding properties in WGA2 mutants are discussed in relation to the structural change at the binding site.
Keyword	agglutinins [ Show all 10 ]

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