A. Wagner scite author profile

Pyruvate formate-lyase (acetyl-CoA:formate C-acetyltransferase, EC 2.3.1.54) from anaerobic Escherchia coli cells converts pyruvate to acetyl-CoA and formate by a unique homolytic mechanism that involves a free radical harbored in the protein structure. By EPR spectroscopy of selectively 13C-labeled enzyme, the radical (g = 2.0037) has been assigned to carbon-2 of a glycine residue. Estimated hyperfine coupling constants to the central 13C nucleus (Au = 4.9 mT and A, = 0.1 mT) and to 13C nuclei in a and 13 positions agree with literature data for glycine radical models. N-coupling was verified through uniform I'N-labeling. The large IH hyperfine splitting (1.5 mT) dominating the EPR spectrum was asignd to the a proton, which in the enzyme radical is readily solvent-exchangeable. 996The publication costs of this article were defrayed in part by page charge payment. This article must therefore be hereby marked "advertisement" in accordance with 18 U.S.C. §1734 solely to indicate this fact.

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Iron center, substrate recognition and mechanism of peptide deformylase

Becker

Schlichting

Kabsch

et al. 1998

Nat Struct Mol Biol

145

212

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Eubacterial proteins are synthesized with a formyl group at the N-terminus which is hydrolytically removed from the nascent chain by the mononuclear iron enzyme peptide deformylase. Catalytic efficiency strongly depends on the identity of the bound metal. We have determined by X-ray crystallography the Fe2+, Ni2+ and Zn2+ forms of the Escherichia coli enzyme and a structure in complex with the reaction product Met-Ala-Ser. The structure of the complex, with the tripeptide bound at the active site, suggests detailed models for the mechanism of substrate recognition and catalysis. Differences of the protein structures due to the identity of the bound metal are extremely small and account only for the observation that Zn2+ binds more tightly than Fe2+ or Ni2+. The striking loss of catalytic activity of the Zn2+ form could be caused by its reluctance to change between tetrahedral and five-fold metal coordination believed to occur during catalysis. N-terminal formylation and subsequent deformylation

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Isolation and Crystallization of Functionally CompetentEscherichia coliPeptide Deformylase Forms Containing either Iron or Nickel in the Active Site

Groche

Becker

Schlichting

et al. 1998

Biochemical and Biophysical Research Communications

118

127

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Basic research and 12 years of clinical experience in computer-assisted navigation technology: a review

Ewers

Schicho

Undt

et al. 2005

International Journal of Oral and Maxillofacial Surgery

234

115

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Pyruvate formate-lyase mechanism involving the protein-based glycyl radical

et al. 1993

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Pyruvate formate-lyase (also called formate acetyltransferase; EC 2.3.1.54; PFI .) catalyses the thiolytic cleavage of pyruvate by CoA, yielding acetyl-CoA and formate. This reaction is the key step in the glucose-fermentation route in Escherichziz coli and various other bacteria. Operationally, it resembles the (B-keto)thiolase reaction of the fatty-acid degradation cycle. The mechanism of pyruvate formate-lyase, however, is fundamentally different, since the carbon-carbon bond of its substrate is cleaved homolytically rather than heterolytically. This property emerged with the discovery of a protein-based radical in the active enzyme form [ 11. The unpaired spin has recently been assigned to C-2 of (;lyi" [ 2 ] .The radical is produced by a postribosomal hydrogen-atom abstraction that is catalysed by PFI, activase using adenosylmethionine (AdoMet) and reduced flavodoxin as co-substrates [ 11. A separate reaction that quenches the protein radical in PFI, is catalysed by the multifunctional AdhE protein and is initiated when anaerobic cells are shifted to positive redox potentials [3].Metabolic aspects of PFI, interconversion between inactive (E) and active (Em) forms and the genetic/transcriptional background of the system have already been reviewed 141. This review will focus on enzyme-catalytic structure/function properties.

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A. Wagner

The free radical in pyruvate formate-lyase is located on glycine-734.

Iron center, substrate recognition and mechanism of peptide deformylase

Isolation and Crystallization of Functionally CompetentEscherichia coliPeptide Deformylase Forms Containing either Iron or Nickel in the Active Site

Basic research and 12 years of clinical experience in computer-assisted navigation technology: a review

Pyruvate formate-lyase mechanism involving the protein-based glycyl radical

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