Site-directed mutagenesis of aspartic acid 372 at the ATP binding site of yeast phosphoglycerate kinase: over-expression and characterization of the mutant enzyme |
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Authors: | Minard, P. Bowen, D.J. Hall, L. Littlechild, J.A. Watson, H.C. |
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Affiliation: | Department of Biochemistry, School of Medical Sciences, University of Bristol Bristol BS8 1TD, UK |
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Abstract: | A new phosphoglycerate kinase over-expression vector, pYE-PGK,has been constructed which greatly facilitates the insertionand removal of mutant enzyme genes by cleavage at newly introducedBamtHI sites. This vector has been used to prepare mutant proteinin appreciable (100 mg) quantities for use in kinetic, crystaUographicand NMR experiments. Aspartate 372 is an invariant amino acidresidue in genes known to code for a functionally active PGK.The function of this acidic residue appears to be to help desolvatethe magnesium ion compfexed with either ADP or ATP when thissubstrate binds to the enzyme. Both crystallographk and nuclearmagnetic resonance experiments show that the replacement ofthe residue with asparagine has only minimal effects on theoverall structure. The substitution of the charged carboxylgroup with that of the neutral amide affects the binding ofthe nucleotide substrate as predicted but not, as might havebeen expected, the binding of 3-phospho-glycerate. The overallvelocity of the enzymic reaction (Vmax) is reduced 10-fold bythe substitution of aspartic acid 372 by an asparagine residue(D372N). This reduction in Vmax is considerably less than onewould expect from its known position within the structure ofthe enzyme. This result therefore poses questions about ourunderstanding of charged groups at the active centres of enzymesand of the reason for their apparent conservation. |
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Keywords: | glycolytic enzyme/ site-directed mutagenesis/ protein engineering/ ATP binding |
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