Abstract
A potential cytosolic metallocarboxypeptidase from Burkholderia cenocepacia has been crystallized and a synchrotron-radiation microfocus beamline allowed the acquisition of diffraction data to 1.9 Å resolution. The asymmetric unit comprises a tetramer containing over 1500 amino acids, and the high-throughput automated protocols embedded in PDB_REDO were coupled with model-map inspections in refinement. This approach has highlighted the value of such protocols for efficient analyses. The subunit is constructed from two domains. The N-terminal domain has previously only been observed in cytosolic carboxypeptidase (CCP) proteins. The C-terminal domain, which carries the Zn2+-containing active site, serves to classify this protein as a member of the M14D subfamily of carboxypeptidases. Although eukaryotic CCPs possess deglutamylase activity and are implicated in processing modified tubulin, the function and substrates of the bacterial family members remain unknown. The B. cenocepacia protein did not display deglutamylase activity towards a furylacryloyl glutamate derivative, a potential substrate. Residues previously shown to coordinate the divalent cation and that contribute to peptide-bond cleavage in related enzymes such as bovine carboxypeptidase are conserved. The location of a conserved basic patch in the active site adjacent to the catalytic Zn2+, where an acetate ion is identified, suggests recognition of the carboxy-terminus in a similar fashion to other carboxypeptidases. However, there are significant differences that indicate the recognition of substrates with different properties. Of note is the presence of a lysine in the S1' recognition subsite that suggests specificity towards an acidic substrate.
Highlights
Carboxypeptidases (CPs) hydrolyse peptide bonds in target proteins to release C-terminal amino acids
The theoretical mass of Burkholderia cenocepacia CCP (BcCCP) is approximately 45.3 kDa; these data were taken to infer the presence of an oligomer, but it was unclear what the quaternary structure was
SEC–MALS shows that the protein elutes with a mass of 174 kDa (Fig. 2) corresponding to a tetramer, and this is consistent with the assembly observed in the crystal structures of BcCCP, BmCCP and the protein from Shewanella denitrificans (SdCCP; Protein Data Bank (PDB) entry 3l2n; Joint Center for Structural Genomics, unpublished work)
Summary
Carboxypeptidases (CPs) hydrolyse peptide bonds in target proteins to release C-terminal amino acids. These enzymes have been classified into different families according to sequence similarity, mechanism and function (Gomis-Ruth, 2008; Rawlings et al, 2012). One of the largest groups, carrying a single catalytic Zn2+ in the active site, is the M14 family This is divided into four subfamilies known as M14A, M14B, M14C and M14D. The M14C group consists of bacterial enzymes related to -d-glutamyl-(l)-meso-diaminopimelate doi:10.1107/S1399004713026801 279 research papers peptidase I (http://merops.sanger.ac.uk/) and process components of the bacterial cell wall. Like their M14A relatives, they carry an N-terminal extension
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