Abstract
D-Serine apodehydratase from Escherichia coli is rapidly inactivated by butanedione in K+ borate buffer or by phenylglyoxal in K+ phosphate buffer at pH 8, 25 degrees. Pyridoxal-P protects against the inactivation. Modification of the apoenzyme abolishes its ability to bind the cofactor, pyridoxal-P, but the apparent Km for the substrate, D-serine, is not altered. The concentration dependence of the rate of butanedione inactivation in K+ borate buffer indicates that it is a two-step process with one butanedione bound per molecule of apoenzyme to give an inactive complex; half-maximal rate of inactivation is obtained at 37 mM butanedione. Butanedione inactivation is fully reversed following removal of excess reagent and borate. Similar studies with [14C]phenylglyoxal show that in the presence of pyridoxal-P at least 2 arginine residues may be modified without loss of activity. In the absence of pyridoxal-P modification of a single additional arginine residue results in loss of activity. Results with both inactivating reagents thus demonstrate that a critical arginine residue participates in binding of the coenzyme, pyridoxal-P. The stoichiometry of phenylglyoxal incorporation into the enzyme is different in the presence and absence of borate. Under both conditions incorporated phenylglyoxal is slowly lost on dialysis at neutral pH. A possible explanation of these effects is discussed.
Highlights
IntroductionCrystalline o-serine dehydratase (EC 4.2.1.14) from Escherichia coli is a monomeric enzyme containing a single polypeptide chain of molecular weight 45,500 [1]
D-%XiIle apodehydratase from Escherichia coli is rapidly inactivated by butanedione in K+ borate buffer or by phenylglyoxal in K+ phosphate buffer at pH 8, 25”
A variety of reagents containing vicinal carbonyl groups have been used to show that a large number of enzymes contain arginine residues essential for substrate or cofactor binding
Summary
Crystalline o-serine dehydratase (EC 4.2.1.14) from Escherichia coli is a monomeric enzyme containing a single polypeptide chain of molecular weight 45,500 [1] It has two distinct binding sites for pyridoxal-P [2]: a high affinity site (& = 7 nM [3]) that binds the catalytically effective coenzyme, and a low affinity site (K, % 1 mM [2]) that binds pyridoxal, &deoxypyridoxal, or pyridoxal phosphate almost well with resultant inhibition of enzyme activity. One of the five sulfhydryl groups present is titrated by 5,5’-dithiobis(2nitrobenzoic acid) in the holoenzyme; in the apoenzyme three sulfhydryl groups are titrated at markedly different rates [1] None of these three groups appears necessary for activity, but reaction of two or more inactivates the apoenzyme by preventing its reassociation with pyridoxal-P. The present work was undertaken to establish the involvement of specific amino acid residues in the catalytic function of the enzyme
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