Author:
Matagne André,Galleni Moreno,Laraki Nezha,Amicosante Gianfranco,Rossolini Gianmaria,Frère Jean-Marie
Reference42 articles.
1. Fètre, J.M., Duez, C., Ghuysen. J.M., and Vandekerckhove, J. (1976) Occurrence of a serine residue in the penicillin-binding site of the exocellular DD-carboxypeptidase-transpeptidasc from Streptomyces R61, FEBS Lett. 70, 257–260.
2. Frère, J.M. and Joris, B. (1985) Penicillin-sensitive enzymes in peptidoglycan biosynthesis. CRC Critical Reviews in Microbiology 11, 299–396.
3. Christensen, H., Martin, M.T., and Waley, S.G. (1990) β-Lactamases as fully efficient enzymes. Determination of all the rate constants in the acylenzyme mechanism. Biochem. J. 266, 853–861.
4. Kelly, J.A., Dideberg, O., Charlier, P., Wéry, J.P., Libert, M., Moews, P.C., Knox, J.R., Duez, C., Fraipont, C., Joris, B., Dusart, J., Frtre, J.M., and Ghuysen, J.M. (1986) On the origin of bacterial resistance to penicillin. Comparison of an active-site serine β-lactamase and an active-site serine D-alanyl-D-alanine cleaving peptidase. Science 231, 1429–1431.
5. Knox, J.R., Moews, P.C., and Frtre, J.M. (1996) Molecular evolution of bacterial β-lactam resistance. Chemistry and Biology 3, 937–947.