1. Functional properties of subunit interactions in human cytidine deaminase
- Author
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Giampiero De Sanctis, Paolo Natalini, Giampiero Mei, Stefano Costanzi, Valeria Polzonetti, Gloria Cristalli, Jan Neuhard, Alberto Vita, Silvia Vincenzetti, and Pierluigi Mariani
- Subjects
Circular dichroism ,Protein Denaturation ,Stereochemistry ,Protein subunit ,Phenylalanine ,Bioengineering ,Bacillus subtilis ,Biochemistry ,Tetramer ,Cytidine Deaminase ,Humans ,Protein Structure, Quaternary ,Molecular Biology ,biology ,Chemistry ,Circular Dichroism ,Tryptophan ,Active site ,Sodium Dodecyl Sulfate ,Cytidine deaminase ,biology.organism_classification ,Protein tertiary structure ,Spectrometry, Fluorescence ,Spectrophotometry ,Mutation ,biology.protein ,Protein quaternary structure ,Biotechnology - Abstract
An intersubunit interactions study related to the active site has been performed on the wild-type cytidine deaminase (CDA) and on the mutant enzyme F137W/W113F. F137 is the homologous to the Bacillus subtilis CDA F125 involved in the subunit interactions. In the presence of SDS, wild-type human CDA dissociates into enzymatically inactive monomers without intermediate forms via a non-cooperative transition. Extensive dialysis or dilution of the inactivated monomers restores completely the activity. Circular dichroism measurements show that the secondary/tertiary structure organization of each subunit is unaffected by the SDS concentration, while the mutation Phe/Trp causes weakening in quaternary structure. The presence of the strong human CDA competitive inhibitor 5-fluorozebularine disfavours dissociation of the tetramer into subunits in the wild-type CDA, but not in mutant enzyme F137W/W113F. The absence of tyrosine fluorescence and the much higher quantum yield of the double mutant protein spectrum suggest the occurrence of an energy transfer effect between the protein subunits. This assumption is confirmed by the crystallographic studies on B.subtilis in which it is shown that three different subunits concur with the formation of each of the four active sites and that F125, homologous to the human CDA F137, is located at the interface between two different subunits contributing to the formation of active site.
- Published
- 2004