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Crystal Structure and Putative Mechanism of 3-Methylitaconate-Delta-isomerase from Eubacterium barkeri

Lookup NU author(s): Emeritus Professor Bernard Golding, Antonius Pierik

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Abstract

3-Methylitaconate-Delta-isomerase (Mii) participates in the nicotinate fermentation pathway of the anaerobic soil bacterium Eubacterium barkeri (order Clostridiales) by catalyzing the reversible conversion of (R)-3-methylitaconate (2-methylene-3-methylsuccinate) to 2,3-dimethylmaleate. The enzyme is also able to catalyze the isomerization of itaconate (methylenesuccinate) to citraconate (methylmaleate) with ca 10-fold higher K-m but >1000-fold lower k(cat). The gene mii from E. barkeri was cloned and expressed in Escherichia coli. The protein produced with a C-terminal Strep-tag exhibited the same specific activity as the wild-type enzyme. The crystal structure of Mii from E. barkeri has been solved at a resolution of 2.70 angstrom. The asymmetric unit of the P2(1)2(1)2(1) unit cell with parameters a = 53.1 angstrom, b = 142.3 angstrom, and c = 228.4 angstrom contains four molecules of Mii. The enzyme belongs to a group of isomerases with a common structural feature, the so-called diaminopimelate epimerase fold. The monomer of 380 amino acid residues has two topologically similar domains exhibiting an alpha/beta-fold. The active site is situated in a cleft between these domains. The four Mii molecules are arranged as a tetramer with 222 symmetry for the N-terminal domains. The C-terminal domains have different relative positions with respect to the N-terminal domains resulting in a closed conformation for molecule A and two distinct open conformations for molecules B and D. The C-terminal domain of molecule C is disordered. The Mii active site contains the putative catalytic residues Lys62 and Cys96, for which mechanistic roles are proposed based on a docking experiment of the Mii substrate complex. The active sites of NU and the closely related PrpF, most likely a methylaconitate A-isomerase, have been compared. The overall architecture including the active-site Lys62, Cys96, His300, and Ser17 (Mii numbering) is similar. This positioning of (R)-3-methylitaconate allows Cys96 (as thiolate) to deprotonate C-3 and (as thiol) to donate a proton to the methylene carbon atom of the resulting allylic carbanion. Interestingly, the active site of isopentenyl diphosphate isomerase type I also contains a cysteine that cooperates with glutamate rather than lysine. It has been proposed that the initial step in this enzyme is a protonation generating a tertiary carbocation intermediate. (C) 2009 Elsevier Ltd. All rights reserved.


Publication metadata

Author(s): Velarde M, Macieira S, Hilberg M, Broker G, Tu SM, Golding BT, Pierik AJ, Buckel W, Messerschmidt A

Publication type: Article

Publication status: Published

Journal: Journal of Molecular Biology

Year: 2009

Volume: 391

Issue: 3

Pages: 609-620

ISSN (print): 0022-2836

ISSN (electronic): 1089-8638

Publisher: Academic Press

URL: http://dx.doi.org/10.1016/j.jmb.2009.06.052

DOI: 10.1016/j.jmb.2009.06.052


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