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Johnston_2013_Plos.One_8_e61325

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Title : Crystal Structures of E. coli Native MenH and Two Active Site Mutants. - Johnston_2013_Plos.One_8_e61325
Author(s) : Johnston JM , Jiang M , Guo Z , Baker EN
Ref : PLoS ONE , 8 :e61325 , 2013
Abstract : Recent revision of the biosynthetic pathway for menaquinone has led to the discovery of a previously unrecognized enzyme 2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase, also known as MenH. This enzyme has an alpha/beta hydrolase fold with a catalytic triad comprising Ser86, His232, and Asp210. Mutational studies identified a number of conserved residues of importance to activity, and modeling further implicated the side chains of Tyr85 and Trp147 in formation of a non-standard oxyanion hole. We have solved the structure of E. coli MenH (EcMenH) at 2.75 A resolution, together with the structures of the active site mutant proteins Tyr85Phe and Arg124Ala, both at 2.5 A resolution. EcMenH has the predicted alpha/beta hydrolase fold with its core alpha/beta domain capped by a helical lid. The active site, a long groove beneath the cap, contains a number of conserved basic residues and is found to bind exogeneous anions, modeled as sulfate and chloride, in all three crystal structures. Docking studies with the MenH substrate and a transition state model indicate that the bound anions mark the binding sites for anionic groups on the substrate. The docking studies, and careful consideration of the active site geometry, further suggest that the oxyanion hole is of a conventional nature, involving peptide NH groups, rather than the proposed site involving Tyr85 and Trp147. This is in accord with conclusions from the structure of S. aureus MenH. Comparisons with the latter do, however, indicate differences in the periphery of the active site that could be of relevance to selective inhibition of MenH enzymes.
ESTHER : Johnston_2013_Plos.One_8_e61325
PubMedSearch : Johnston_2013_Plos.One_8_e61325
PubMedID: 23637813
Gene_locus related to this paper: ecoli-YFBB

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Gene_locus related to this paper: ecoli-YFBB

Citations formats

Johnston JM, Jiang M, Guo Z, Baker EN (2013)
Crystal Structures of E. coli Native MenH and Two Active Site Mutants.
PLoS ONE 8 :e61325

Johnston JM, Jiang M, Guo Z, Baker EN (2013)
PLoS ONE 8 :e61325