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Research Article

Generation of AMBER force field parameters for zinc centres of M1 and M17 family aminopeptidases

, ORCID Icon, , , , ORCID Icon & ORCID Icon show all
Pages 2595-2604 | Received 05 Jun 2017, Accepted 31 Jul 2017, Published online: 28 Aug 2017
 

Abstract

The M1 and M17 aminopeptidases are metallo-exopeptidases that rely on the presence of divalent cations, usually zinc, in their active site for proteolytic activity. They are from separate protease superfamilies, however, members often have overlapping substrate specificity. Inhibitors of one or both enzymes can be used to modulate hypertension, reduce proliferation of certain types of cancers and control malaria parasites. Current inhibitors act to chelate the zinc ions in the active site, locking the enzymes in an inactive transition state. We were interested in using a computational approach to understand the structure and dynamics of the M1 and M17 aminopeptidases, however, the presence of the essential metal ions in the proteases presents a challenge to classical molecular dynamics (MD) simulation. The zinc amber force field does not contain applicable descriptions of the zinc coordination environment present in either of these two protease families. To provide tools for the study of these two enzymes, we have used the metal centre parameter builder to generate new hybrid bonded/nonbonded force field (FF) parameters to correctly describe the active site architecture for each enzyme. The new parameters were evaluated by fitting the normal mode frequencies of molecular mechanics to the quantum mechanics frequencies and validated by performing short MD simulations. The new FF parameters now enable more accurate and reliable MD simulations for any member of the M1 or M17 aminopeptidase superfamilies.

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