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Literature DB >> 14527675

Distal side tryptophan, tyrosine and methionine in catalase-peroxidases are covalently linked in solution.

Christa Jakopitsch¹, Daniel Kolarich, Gabriele Petutschnig, Paul Georg Furtmüller, Christian Obinger.

Abstract

Distal side tryptophan and tyrosine have been shown to be essential in the catalase but not the peroxidase activity of bifunctional catalase-peroxidases (KatGs). Recently published crystal structures suggest that both residues could be part of a novel adduct including in addition a conserved methionine. A mass spectrometric analysis of the tryptic peptides from recombinant wild-type Synechocystis KatG and the variants Trp122Phe, Tyr249Phe and Met275Ile confirms that this novel adduct really exists in solution and thus may be common to all KatGs. Exchange of either Trp122 or Tyr249 prevents cross-linking, whereas exchange of Met275 still allowed bond formation between Trp122 and Tyr249. It is proposed that the covalent bond between Trp and Tyr may form before that between Tyr and Met. The findings are discussed with respect to the mechanism of cross-linking and its role in KatG catalysis.

Entities: Chemical Mutation

Mesh：

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Year: 2003 PMID： 14527675 DOI： 10.1016/s0014-5793(03)00901-3

Source DB: PubMed Journal: FEBS Lett ISSN： 0014-5793 Impact factor: 4.124

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Cited

12 in total

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2. Single-site mutations on the catalase-peroxidase from Sinorhizobium meliloti: role of the distal Gly and the three amino acids of the putative intrinsic cofactor.

Authors: Silvia Ardissone; Enzo Laurenti; Pierre Frendo; Elena M Ghibaudi; Alain Puppo
Journal: J Biol Inorg Chem Date: 2005-11-08 Impact factor: 3.358

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Authors: Sofia M Kapetanaki; Xiangbo Zhao; Shengwei Yu; Richard S Magliozzo; Johannes P M Schelvis
Journal: J Inorg Biochem Date: 2006-11-17 Impact factor: 4.155

4. Isoniazid-resistance conferring mutations in Mycobacterium tuberculosis KatG: catalase, peroxidase, and INH-NADH adduct formation activities.

Authors: Christine E Cade; Adrienne C Dlouhy; Katalin F Medzihradszky; Saida Patricia Salas-Castillo; Reza A Ghiladi
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5. Two distinct groups of fungal catalase/peroxidases.

Authors: Marcel Zámocký; Paul G Furtmüller; Christian Obinger
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6. Expression, purification, crystallization and preliminary X-ray analysis of the Met244Ala variant of catalase-peroxidase (KatG) from the haloarchaeon Haloarcula marismortui.

Authors: Tomomi Ten-I; Takashi Kumasaka; Wataru Higuchi; Satoru Tanaka; Katsuhiko Yoshimatsu; Taketomo Fujiwara; Takao Sato
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Review 7. Evolution of catalases from bacteria to humans.

Authors: Marcel Zamocky; Paul G Furtmüller; Christian Obinger
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8. Mutual synergy between catalase and peroxidase activities of the bifunctional enzyme KatG is facilitated by electron hole-hopping within the enzyme.

Authors: Olive J Njuma; Ian Davis; Elizabeth N Ndontsa; Jessica R Krewall; Aimin Liu; Douglas C Goodwin
Journal: J Biol Chem Date: 2017-09-27 Impact factor: 5.157

9. Eukaryotic extracellular catalase-peroxidase from Magnaporthe grisea - Biophysical/chemical characterization of the first representative from a novel phytopathogenic KatG group.

Authors: Marcel Zámocký; Enrica Droghetti; Marzia Bellei; Bernhard Gasselhuber; Martin Pabst; Paul G Furtmüller; Gianantonio Battistuzzi; Giulietta Smulevich; Christian Obinger
Journal: Biochimie Date: 2011-09-29 Impact factor: 4.372

10. Turning points in the evolution of peroxidase-catalase superfamily: molecular phylogeny of hybrid heme peroxidases.

Authors: Marcel Zámocký; Bernhard Gasselhuber; Paul G Furtmüller; Christian Obinger
Journal: Cell Mol Life Sci Date: 2014-05-21 Impact factor: 9.261