Thierry Gonzales scite author profile

Aminopeptidases are exopeptidases that selectively release N-terminal amino acid residues from polypeptides and proteins. Bacteria display several aminopeptidasic activities which may be localised in the cytoplasm, on membranes, associated with the cell envelope or secreted into the extracellular media. Studies on the bacterial aminopeptide system have been carried out over the past three decades and are significant in fundamental and biotechnological domains. At present, about one hundred bacterial aminopeptidases have been purified and biochemically studied. About forty genes encoding aminopeptidases have also been cloned and characterised. Recently, the three-dimensional structure of two aminopeptidases, the methionine aminopeptidase from Escherichia coli and the leucine aminopeptidase from Aeromonas proteolytica, have been elucidated by crystallographic studies. Most of the quoted studies demonstrate that bacterial aminopeptidases generally show Michaelis-Menten kinetics and can be placed into either of two categories based on their substrate specificity: broad or narrow. These enzymes can also be classified by another criterium based on their catalytic mechanism: metallo-, cysteine- and serine-aminopeptidases, the former type being predominant in bacteria. Aminopeptidases play a role in several important physiological processes. It is noteworthy that some of them take part in the catabolism of exogenously supplied peptides and are necessary for the final steps of protein turnover. In addition, they are involved in some specific functions, such as the cleavage of N-terminal methionine from newly synthesised peptide chains (methionine aminopeptidases), the stabilisation of multicopy ColE1 based plasmids (aminopeptidase A) and the pyroglutamyl aminopeptidase (Pcp) present in many bacteria and responsible for the cleavage of the N-terminal pyroglutamate.

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Mutational analysis of the active site of Pseudomonas fluorescens pyrrolidone carboxyl peptidase

Saux¹,

Gonzales²,

Robert‐Baudouy³

1996

J Bacteriol

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On the basis of chemical inhibition studies and a multiple alignment of four pyrrolidone carboxyl peptidase (Pcp) amino acid sequences, seven conserved residues of the Pseudomonas fluorescens Pcp, which might be important for enzyme activity, have been modified by site-directed mutagenesis experiments. Wild-type and mutant Pcps were expressed in Escherichia coli, purified, and characterized by the ability to cleave the synthetic chromogenic substrate pyroglutamyl-␤-naphthylamide and the dipeptide pyroglutamyl-alanine. Substitution of Glu-10 and Glu-22 by Gln led to enzymes which displayed catalytic properties and sensitivities to 1-ethyl-3-(3-dimethylaminopropyl) carbodiimide similar to those of the wild-type Pcp. These residues are not essential for the catalytic activity. Replacement of Asp-89 by Asn and Ala resulted in enzymes which retained nearly 25% of activity and which had no activity, respectively. Substitution of the Cys-144 and His-166 residues by Ala and Ser, respectively, resulted in inactive enzymes. Proteins with changes of Glu-81 to Gln and Asp-94 to Asn were not detectable in crude extract and were probably unstable in bacteria. Our results are consistent with the proposal that Cys-144 and His-166 constitute the nucleophilic and imidazole residues of the Pcp active site, while residue Glu-81, Asp-89, or Asp-94 might constitute the third part of the active site. These results lead us to propose Pcps as a new class of thiol aminopeptidases.

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Conductimetric assay of pyroglutamyl peptidase activity

Besson¹,

Vessillier²,

Gonzales³

et al. 1994

Analytica Chimica Acta

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Contributors

Abbott¹,

Abraham²,

Adachi³

et al. 2013

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Contributors

Adachi¹,

Adachi²,

Adam³

et al. 2004

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