Literature DB >> 22401569

Structural and electrostatic asymmetry at the active site in typical and atypical peroxiredoxin dimers.

Freddie R Salsbury1, Ye Yuan, Michael H Knaggs, Leslie B Poole, Jacquelyn S Fetrow.   

Abstract

The peroxiredoxins (Prx) are ubiquitous peroxidases involved in important biological processes; however, details of their enzymatic mechanism remain elusive. To probe potential dynamics-function relationships, molecular dynamics simulations and electrostatic calculations were performed on the atypical 2-cysteine thiol peroxidase (Tpx) from Streptococcus pneumoniae and results compared to a previous study of a typical 2-cysteine Prx from Trypanosoma cruzi. The analyses indicate a commonality between both typical and atypical Prx: dynamic asymmetry. Asymmetry is observed in structure, fluctuations, and active site electrostatics. Key residues, including Glu150 and Phe153, play roles in the developing asymmetry; furthermore, in the atypical 2-Cys Tpx, Glu150 exhibits conformation fluctuations suggesting involvement in a proton shuttle. The existence of a pathway of connected residues appears to propagate the asymmetry. The commonality of asymmetry and coupling pathways in both typical and atypical Prxs suggests a driving force toward dimer asymmetry as a common feature that plays a functional role in creating one active site with a lower cysteine pK(a).

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Year:  2012        PMID: 22401569      PMCID: PMC3383837          DOI: 10.1021/jp212606k

Source DB:  PubMed          Journal:  J Phys Chem B        ISSN: 1520-5207            Impact factor:   2.991


  34 in total

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