P N B Gibbs scite author profile

The reaction of human 5-aminolaevulinate dehydratase with 5,5'-dithiobis-(2-nitrobenzoic acid) (Nbs2) results in the release of 4 molar equivalents of 5-mercapto-2-nitrobenzoic acid (Nbs) per subunit. Two of the thiol groups reacted very rapidly (groups I and II), and their rate constants were determined by stopped-flow spectrophotometry; the other two thiol groups (groups III and IV) were observed by conventional spectroscopy. Titration of the enzyme with a 1 molar equivalent concentration of Nbs2 resulted in the release of 2 molar equivalents of Nbs and the concomitant formation of an intramolecular disulphide bond between groups I and II. Removal of zinc from the holoenzyme increased the reactivity of groups I and II without significantly affecting the rate of reaction of the other groups. The reactions of the thiol groups in both the holoenzyme and apoenzyme were little affected by the presence of Pb2+ ions at concentrations that strongly inhibit the enzyme, suggesting that Zn2+ and Pb2+ ions may have independent binding sites. Protein fluorescence studies with Pb2+ and Zn2+ have shown that the binding of both metal ions results in perturbation of the protein fluorescence.

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Identification of lysine at the active site of human 5-aminolaevulinate dehydratase

Gibbs¹,

Jordan²

1986

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Reduction of human 5-aminolaevulinate dehydratase with NaBH4 in the presence of 14C-labelled substrate led to complete loss of catalytic activity and to incorporation of label into the enzyme protein. By comparison with authentic lysyl-aminolaevulinic acid, prepared chemically, the modified active-site amino acid obtained by acid hydrolysis was shown to be lysine. Sequencing of a CNBr-cleavage peptide isolated from the inactivated 14C-labelled enzyme revealed that the lysine was present within the sequence M-V-K-P-G-M.

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Mechanism of action of 5-aminolaevulinate dehydratase from human erythrocytes

Jordan¹,

Gibbs²

1985

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Purified 5-aminolaevulinate dehydratase (porphobilinogen synthase, EC 4.2.1.24) from human erythrocytes was incubated initially with limiting amounts of 5-amino [5-14C]laevulinate in a rapid-mixing apparatus. The single-turnover reaction with respect to the bound labelled 5-aminolaevulinate was completed by the addition of unlabelled 5-aminolaevulinate and the resulting radioactive porphobilinogen was isolated and degraded. The 14C label was found to be located predominantly at C-2 of the product, demonstrating that, of the two substrate molecules participating in the reaction, the 5-aminolaevulinate molecule initially bound to the enzyme provides the propionic acid 'side' of the porphobilinogen. The same enzyme-[14C]substrate species that yields regiospecific porphobilinogen may be trapped by reaction with NaBH4, showing that the substrate molecule initially bound to the enzyme does so in the form of a Schiff base. A conventional incubation with 5-amino[5-14C]laevulinate yielded porphobilinogen with an equal distribution of the label between C-2 and C-11. The reaction mechanism of the human erythrocyte 5-aminolaevulinate dehydratase thus follows the same course as that of other dehydratases studied in our laboratory by using single-turnover techniques.

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Purification and properties of 5-aminolaevulinate dehydratase from human erythrocytes

Gibbs¹,

Chaudhry²,

Jordan³

1985

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A new procedure for the isolation of homogeneous human 5-aminolaevulinate dehydratase (porphobilinogen synthase, EC 4.2.1.24) is described in which the enzyme is purified 35000-fold and in 65-74% yield. The specific activity of the purified enzyme, 24 units/mg, is the highest yet reported. An efficient stage for the removal of haemoglobin is incorporated in the method, which has general application to the purification of other erythrocyte enzymes. The erythrocyte dehydratase (Mr 285 000) is made up of eight apparently identical subunits of Mr 35 000. The enzyme is sensitive to oxygen, and its activity is maintained by the presence of thiols such as dithioerythritol. Zn2+ is obligatory for enzyme activity, the apoenzyme being essentially inactive (approximately equal to 12% of control) when assayed in buffers devoid of Zn2+. Addition of Zn2+ to the apoenzyme restores activity as long as the sensitive thiol groups are fully reduced; optimal stimulation occurs between 100 and 300 microM-Zn2+. The human enzyme is inhibited by Pb2+ in a non-competitive fashion [KiI (dissociation constant for E X S X Pb2+ complex) = 25.3 +/- 3.0 microM; KiS (dissociation constant for E X Pb2+ complex) = 9.0 +/- 2.0 microM]. Modification of thiol groups, inactivation by oxidation, alkylation or reaction with thiophilic reagents demonstrates the importance of sensitive thiol groups for full enzymic activity.

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5-Aminolaevulinate dehydratase: Zinc-65 binding and exchange with the enzyme from human erythrocytes

Gibbs

Jordan

1981

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P N B Gibbs

Investigation of the effect of metal ions on the reactivity of thiol groups in human 5-aminolaevulinate dehydratase

Identification of lysine at the active site of human 5-aminolaevulinate dehydratase

Mechanism of action of 5-aminolaevulinate dehydratase from human erythrocytes

Purification and properties of 5-aminolaevulinate dehydratase from human erythrocytes

5-Aminolaevulinate dehydratase: Zinc-65 binding and exchange with the enzyme from human erythrocytes

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