Carboxypeptidase T (CPT) from Thermoactinomyces vulgaris (EC 3.4.17.18) has a broad substrate specificity, the mechanism of which remains unclear. It cleaves off arginine residues by 10, and lysine residues by… Click to show full abstract
Carboxypeptidase T (CPT) from Thermoactinomyces vulgaris (EC 3.4.17.18) has a broad substrate specificity, the mechanism of which remains unclear. It cleaves off arginine residues by 10, and lysine residues by 100 times worse than hydrophobic leucine residues despite the presence of negatively charged Asp260 at the bottom of the primary specificity pocket. To study the relationship between the structure and specificity the 3D structure of CPT in complex with the stable transition state analog N-sulfamoyl-l-lysine (SLys) was determined in which the S-atom imitates the sp3-hybridized carbon in the scissile-bond. Crystals grown in microgravity has the symmetry of space group P6322. The present complex structure was compared with the previously reported complex structure of CPT and N-sulfamoyl-L-arginine (SArg). The location/binding of SLys in the active site of CPT very closely resembled that of SArg, and the positively charged N-atom of SLys was at the same position as the corresponding positively charged N-atom of SArg. The SLys complex is stabilized by the hydrogen bond between the nitrogen atom and OH-group of Thr257. The contact areas of the residues Tyr255, Leu211, and Thr262 with SLys were reduced in comparison with the same of SArg. This difference in bonding of SArg and SLys side chains in the primary specificity pocket induces shifts differences within the catalytic center (especially Tyr255-O20 and S18-Arg129 N1 gap) that may influence the enzyme's catalytic reaction. Therefore, this information may be useful for the design of carboxypeptidases with improved selectivity towards Arg/Lys for biotechnological applications.
               
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