Literature DB >> 29331688

Coproheme decarboxylases - Phylogenetic prediction versus biochemical experiments.

Vera Pfanzagl1, Laurenz Holcik1, Daniel Maresch1, Giulia Gorgone1, Hanna Michlits1, Paul G Furtmüller1, Stefan Hofbauer2.   

Abstract

Coproheme decarboxylases (ChdCs) are enzymes responsible for the catalysis of the terminal step in the coproporphyrin-dependent heme biosynthesis pathway. Phylogenetic analyses confirm that the gene encoding for ChdCs is widespread throughout the bacterial world. It is found in monoderm bacteria (Firmicutes, Actinobacteria), diderm bacteria (e. g. Nitrospirae) and also in Archaea. In order to test phylogenetic prediction ChdC representatives from all clades were expressed and examined for their coproheme decarboxylase activity. Based on available biochemical data and phylogenetic analyses a sequence motif (-Y-P-M/F-X-K/R-) is defined for ChdCs. We show for the first time that in diderm bacteria an active coproheme decarboxylase is present and that the archaeal ChdC homolog from Sulfolobus solfataricus is inactive and its physiological role remains elusive. This shows the limitation of phylogenetic prediction of an enzymatic activity, since the identified sequence motif is equally conserved across all previously defined clades.
Copyright © 2018 The Authors. Published by Elsevier Inc. All rights reserved.

Entities:  

Keywords:  Archaea; Coproheme decarboxylase; Heme biosynthesis; Nitrospirae; Phylogeny

Mesh:

Substances:

Year:  2018        PMID: 29331688      PMCID: PMC5993186          DOI: 10.1016/j.abb.2018.01.005

Source DB:  PubMed          Journal:  Arch Biochem Biophys        ISSN: 0003-9861            Impact factor:   4.114


  38 in total

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2.  Crystal structure of coproporphyrinogen III oxidase reveals cofactor geometry of Radical SAM enzymes.

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2.  The hydrogen bonding network of coproheme in coproheme decarboxylase from Listeria monocytogenes: Effect on structure and catalysis.

Authors:  Lisa Milazzo; Thomas Gabler; Vera Pfanzagl; Hanna Michlits; Paul G Furtmüller; Christian Obinger; Stefan Hofbauer; Giulietta Smulevich
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3.  Redox Cofactor Rotates during Its Stepwise Decarboxylation: Molecular Mechanism of Conversion of Coproheme to Heme b.

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5.  Reorienting Mechanism of Harderoheme in Coproheme Decarboxylase-A Computational Study.

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8.  Actinobacterial Coproheme Decarboxylases Use Histidine as a Distal Base to Promote Compound I Formation.

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