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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Molecular characterisation of the OXA-2 beta-lactamase

Mossakowska, Danuta Ewa Irena January 1988 (has links)
The DNA sequence of the gene coding for the OXA-2 beta-lactamase has been completed. The primary amino acid sequence deduced from the DNA sequence was used to study homologies with other beta-lactamases; no good homologies were observed with any class of beta-lactamase. A more detailed analysis has revealed from comparison of both primary and predicted secondary structure, that the OXA-2 beta-lactamase may be more closely related to class A enzymes. Confirmation that the OXA-2 beta-lactamase is a serine enzyme has come from the DNA sequence and the interaction with mechanism based inactivators. Clavulanic acid and a novel beta-lactamase inhibitor, BRL36148, both interact specifically with the OXA-2 beta-lactamase by branched pathway mechanisms. Analysis of inactivated enzymes by peptide mapping and isoelcetric focusing have revealed that more than one inactive enzyme species is formed with each inactivator. A specific DNA probe was designed to come entirely from within the coding sequence of the OXA-2 beta-lactamase gene. This probe was found to interact only with plasmids specifying the OXA-2 or OXA-3 type enzymes. These results confirm earlier observations that OXA-2 and OXA-3 beta-lactamases are related. Another probe which comprised the whole of the OXA-2 beta-lactamase gene as well as segments of DNA on either side of the gene, was found to hybridise with a number of resistance plasmids. This interaction suggests that multi resistance plasmids carry common segments of DNA. Characterisation of the physical properties of the OXA-2 enzyme by analytical ultracentrifugation have not only confirmed the dimeric nature of this beta-lactamase but have also shown that this enzyme forms aggregates at high protein concentrations. Probing of the enzyme structure with trypsin, strongly points to the OXA-2 beta-lactamase having a domain structure.

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