1ydo
From Proteopedia
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'''Crystal Structure of the Bacillis subtilis HMG-CoA Lyase, Northeast Structural Genomics Target SR181.''' | '''Crystal Structure of the Bacillis subtilis HMG-CoA Lyase, Northeast Structural Genomics Target SR181.''' | ||
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[[Category: Vorobiev, S M.]] | [[Category: Vorobiev, S M.]] | ||
[[Category: Xiao, R.]] | [[Category: Xiao, R.]] | ||
| - | [[Category: | + | [[Category: Nesg]] |
| - | [[Category: | + | [[Category: Northeast structural genomics consortium]] |
| - | [[Category: | + | [[Category: Protein structure initiative]] |
| - | [[Category: | + | [[Category: Psi]] |
| - | [[Category: | + | [[Category: Structural genomic]] |
| - | [[Category: | + | [[Category: Tim-barrel protein]] |
| - | + | ''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Sat May 3 16:11:33 2008'' | |
| - | ''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on | + | |
Revision as of 13:11, 3 May 2008
Crystal Structure of the Bacillis subtilis HMG-CoA Lyase, Northeast Structural Genomics Target SR181.
Overview
The enzyme 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) lyase catalyzes the terminal steps in ketone body generation and leucine degradation. Mutations in this enzyme cause a human autosomal recessive disorder called primary metabolic aciduria, which typically kills victims because of an inability to tolerate hypoglycemia. Here we present crystal structures of the HMG-CoA lyases from Bacillus subtilis and Brucella melitensis at 2.7 and 2.3 A resolution, respectively. These enzymes share greater than 45% sequence identity with the human orthologue. Although the enzyme has the anticipated triose-phosphate isomerase (TIM) barrel fold, the catalytic center contains a divalent cation-binding site formed by a cluster of invariant residues that cap the core of the barrel, contrary to the predictions of homology models. Surprisingly, the residues forming this cation-binding site and most of their interaction partners are shared with three other TIM barrel enzymes that catalyze diverse carbon-carbon bond cleavage reactions believed to proceed through enolate intermediates (4-hydroxy-2-ketovalerate aldolase, 2-isopropylmalate synthase, and transcarboxylase 5S). We propose the name "DRE-TIM metallolyases" for this newly identified enzyme family likely to employ a common catalytic reaction mechanism involving an invariant Asp-Arg-Glu (DRE) triplet. The Asp ligates the divalent cation, while the Arg probably stabilizes charge accumulation in the enolate intermediate, and the Glu maintains the precise structural alignment of the Asp and Arg. We propose a detailed model for the catalytic reaction mechanism of HMG-CoA lyase based on the examination of previously reported product complexes of other DRE-TIM metallolyases and induced fit substrate docking studies conducted using the crystal structure of human HMG-CoA lyase (reported in the accompanying paper by Fu, et al. (2006) J. Biol. Chem. 281, 7526-7532). Our model is consistent with extensive mutagenesis results and can guide subsequent studies directed at definitive experimental elucidation of this enzyme's reaction mechanism.
About this Structure
1YDO is a Single protein structure of sequence from Bacillus subtilis subsp. subtilis str. 168. Full crystallographic information is available from OCA.
Reference
Crystal structures of two bacterial 3-hydroxy-3-methylglutaryl-CoA lyases suggest a common catalytic mechanism among a family of TIM barrel metalloenzymes cleaving carbon-carbon bonds., Forouhar F, Hussain M, Farid R, Benach J, Abashidze M, Edstrom WC, Vorobiev SM, Xiao R, Acton TB, Fu Z, Kim JJ, Miziorko HM, Montelione GT, Hunt JF, J Biol Chem. 2006 Mar 17;281(11):7533-45. Epub 2005 Dec 5. PMID:16330546 Page seeded by OCA on Sat May 3 16:11:33 2008
Categories: Bacillus subtilis subsp. subtilis str. 168 | Single protein | Acton, T B. | Ciano, M. | Edstrom, W. | Forouhar, F. | Hunt, J F. | Hussain, M. | Montelione, G T. | NESG, Northeast Structural Genomics Consortium. | Shih, L. | Tong, L. | Vorobiev, S M. | Xiao, R. | Nesg | Northeast structural genomics consortium | Protein structure initiative | Psi | Structural genomic | Tim-barrel protein
