2gc0 Citations

Evidence supporting a cis-enediol-based mechanism for Pyrococcus furiosus phosphoglucose isomerase.

Berrisford JM, Hounslow AM, Akerboom J, Hagen WR, Brouns SJ, van der Oost J, Murray IA, Michael Blackburn G, Waltho JP, Rice DW, Baker PJ
J Mol Biol 358 1353-66 (2006)
Related entries: 2gc1, 2gc2, 2gc3

Cited: 13 times
EuropePMC logo PMID: 16580686

Abstract

The enzymatic aldose ketose isomerisation of glucose and fructose sugars involves the transfer of a hydrogen between their C1 and C2 carbon atoms and, in principle, can proceed through either a direct hydride shift or via a cis-enediol intermediate. Pyrococcus furiosus phosphoglucose isomerase (PfPGI), an archaeal metalloenzyme, which catalyses the interconversion of glucose 6-phosphate and fructose 6-phosphate, has been suggested to operate via a hydride shift mechanism. In contrast, the structurally distinct PGIs of eukaryotic or bacterial origin are thought to catalyse isomerisation via a cis-enediol intermediate. We have shown by NMR that hydrogen exchange between substrate and solvent occurs during the reaction catalysed by PfPGI eliminating the possibility of a hydride-shift-based mechanism. In addition, kinetic measurements on this enzyme have shown that 5-phospho-d-arabinonohydroxamate, a stable analogue of the putative cis-enediol intermediate, is the most potent inhibitor of the enzyme yet discovered. Furthermore, determination and analysis of crystal structures of PfPGI with bound zinc and the substrate F6P, and with a number of competitive inhibitors, and EPR analysis of the coordination of the metal ion within PfPGI, have suggested that a cis-enediol intermediate-based mechanism is used by PfPGI with Glu97 acting as the catalytic base responsible for isomerisation.

Articles - 2gc0 mentioned but not cited (1)

  1. Structural studies of phosphoglucose isomerase from Mycobacterium tuberculosis H37Rv. Anand K, Mathur D, Anant A, Garg LC. Acta Crystallogr Sect F Struct Biol Cryst Commun 66 490-497 (2010)


Reviews citing this publication (1)

  1. Carbohydrate metabolism in Archaea: current insights into unusual enzymes and pathways and their regulation. Bräsen C, Esser D, Rauch B, Siebers B. Microbiol Mol Biol Rev 78 89-175 (2014)

Articles citing this publication (11)

  1. Correlated mutation analyses on super-family alignments reveal functionally important residues. Kuipers RK, Joosten HJ, Verwiel E, Paans S, Akerboom J, van der Oost J, Leferink NG, van Berkel WJ, Vriend G, Schaap PJ. Proteins 76 608-616 (2009)
  2. Metal dependence of oxalate decarboxylase activity. Moomaw EW, Angerhofer A, Moussatche P, Ozarowski A, García-Rubio I, Richards NG. Biochemistry 48 6116-6125 (2009)
  3. EPR spectroscopy as a probe of metal centres in biological systems. Hagen WR. Dalton Trans 4415-4434 (2006)
  4. Structure-based annotation of a novel sugar isomerase from the pathogenic E. coli O157:H7. van Staalduinen LM, Park CS, Yeom SJ, Adams-Cioaba MA, Oh DK, Jia Z. J Mol Biol 401 866-881 (2010)
  5. Substrate specificity of a glucose-6-phosphate isomerase from Pyrococcus furiosus for monosaccharides. Yoon RY, Yeom SJ, Park CS, Oh DK. Appl Microbiol Biotechnol 83 295-303 (2009)
  6. Enzymatic characterization of 5-methylthioribose 1-phosphate isomerase from Bacillus subtilis. Saito Y, Ashida H, Kojima C, Tamura H, Matsumura H, Kai Y, Yokota A. Biosci Biotechnol Biochem 71 2021-2028 (2007)
  7. The reaction mechanism of type I phosphomannose isomerases: new information from inhibition and polarizable molecular mechanics studies. Roux C, Bhatt F, Foret J, de Courcy B, Gresh N, Piquemal JP, Jeffery CJ, Salmon L. Proteins 79 203-220 (2011)
  8. Distant Non-Obvious Mutations Influence the Activity of a Hyperthermophilic Pyrococcusfuriosus Phosphoglucose Isomerase. Subramanian K, Mitusińska K, Raedts J, Almourfi F, Joosten HJ, Hendriks S, Sedelnikova SE, Kengen SWM, Hagen WR, Góra A, Martins Dos Santos VAP, Baker PJ, van der Oost J, Schaap PJ. Biomolecules 9 E212 (2019)
  9. Identification and functional characterization of sorbitol-6-phosphate dehydrogenase protein from rice and structural elucidation by in silico approach. Yadav R, Prasad R. Planta 240 223-238 (2014)
  10. Mixed sugar-core-phosphate chelation of D-fructose 1,6-bisphosphate with the Re(V)O(tmen) metal fragment. Steinborn M, Suhanji M, Klüfers P. Dalton Trans 42 5749-5754 (2013)
  11. Biochemical and Structural Characterisation of a Novel D-Lyxose Isomerase From the Hyperthermophilic Archaeon Thermofilum sp. De Rose SA, Kuprat T, Isupov MN, Reinhardt A, Schönheit P, Littlechild JA. Front Bioeng Biotechnol 9 711487 (2021)


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