Reversal of the effect of the allosteric ligands of dCMP-aminohydrolase and stabilization of the enzyme in the T form |
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Authors: | CA Raia R Nucci C Vaccaro S Sepe R Rella M Rossi |
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Institution: | International Institute of Genetics and Biophysics Via G, Marconi 10, Naples, Italy;Chair of Enzymology, Istituto di Chimica Organica e Biologica Facoltà di Scienze, Università di Napoli, Italy |
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Abstract: | The 5-mercury derivative of dCMP is a substrate of deoxycytidylate aminohydrolase in the presence of mercaptoethanol. With this substrate a reversal of the effect of the allosteric ligands of the enzyme is observed. dCTP, which is an allosteric activator for aminohydrolysis of dCMP, becomes an inhibitor for the mercury substrate, whilst dTTP, an allosteric inhibitor for dCMP, becomes an activator for the mercury substrate.This observation has been interpreted by assuming that dCMP-Hg-S-CH2-CH2-OH is a substrate of the T form of the enzyme. By reacting dCMP-aminohydrolase in the T form (in the presence of dTTP) with glutaraldehyde, an enzyme has been isolated that is no longer active with dCMP, while it is fully active with the mercurated analog. Gel electrophoresis demonstrated that glutaraldehyde does not produce intermolecular crosslinks, but fixes 95% of the enzyme in a stable hexameric form by intramolecular crosslinks. The data are explained by assuming that glutaraldehyde stabilizes the enzyme in the T conformation. |
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