Genome analysis provides insights into microaerobic toluene-degradation pathway of Zoogloea oleivorans Buc T

Zoogloea oleivorans, capable of using toluene as a sole source of carbon and energy, was earlier found to be an active degrader under microaerobic conditions in aquifer samples. To uncover the genetic background of the ability of microaerobic toluene degradation in Z. oleivorans, the whole-genome se...

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Veröffentlicht in:	Archives of microbiology 2020-03, Vol.202 (2), p.421
Hauptverfasser:	Táncsics, András, Farkas, Milán, Horváth, Balázs, Maróti, Gergely, Bradford, Lauren M, Lueders, Tillmann, Kriszt, Balázs
Format:	Artikel
Sprache:	eng
Schlagworte:	Base Composition - genetics Biodegradation, Environmental Catechols Energy Metabolism - physiology Genome, Bacterial - genetics Groundwater - microbiology Metabolic Networks and Pathways Oxygenases - metabolism Toluene - metabolism Zoogloea - genetics Zoogloea - metabolism
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creator	Táncsics, András Farkas, Milán Horváth, Balázs Maróti, Gergely Bradford, Lauren M Lueders, Tillmann Kriszt, Balázs
description	Zoogloea oleivorans, capable of using toluene as a sole source of carbon and energy, was earlier found to be an active degrader under microaerobic conditions in aquifer samples. To uncover the genetic background of the ability of microaerobic toluene degradation in Z. oleivorans, the whole-genome sequence of the type strain Buc was revealed. Metatranscriptomic sequence reads, originated from a previous SIP study on microaerobic toluene degradation, were mapped on the genome. The genome (5.68 Mb) had a mean G + C content of 62.5%, 5005 protein coding gene sequences and 80 RNA genes. Annotation predicted that 66 genes were involved in the metabolism of aromatic compounds. Genome analysis revealed the presence of a cluster with genes coding for a multicomponent phenol-hydroxylase system and a complete catechol meta-cleavage pathway. Another cluster flanked by mobile-element protein coding genes coded a partial catechol meta-cleavage pathway including a subfamily I.2.C-type extradiol dioxygenase. Analysis of metatranscriptomic data of a microaerobic toluene-degrading enrichment, containing Z . oleivorans as an active-toluene degrader revealed that a toluene dioxygenase-like enzyme was responsible for the ring-hydroxylation, while enzymes of the partial catechol meta-cleavage pathway coding cluster were responsible for further degradation of the aromatic ring under microaerobic conditions. This further advances our understanding of aromatic hydrocarbon degradation between fully oxic and strictly anoxic conditions.
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Analysis of metatranscriptomic data of a microaerobic toluene-degrading enrichment, containing Z . oleivorans as an active-toluene degrader revealed that a toluene dioxygenase-like enzyme was responsible for the ring-hydroxylation, while enzymes of the partial catechol meta-cleavage pathway coding cluster were responsible for further degradation of the aromatic ring under microaerobic conditions. 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Analysis of metatranscriptomic data of a microaerobic toluene-degrading enrichment, containing Z . oleivorans as an active-toluene degrader revealed that a toluene dioxygenase-like enzyme was responsible for the ring-hydroxylation, while enzymes of the partial catechol meta-cleavage pathway coding cluster were responsible for further degradation of the aromatic ring under microaerobic conditions. This further advances our understanding of aromatic hydrocarbon degradation between fully oxic and strictly anoxic conditions.</abstract><cop>Germany</cop><pmid>31659381</pmid><orcidid>https://orcid.org/0000-0002-0927-1136</orcidid></addata></record>
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subjects	Base Composition - genetics Biodegradation, Environmental Catechols Energy Metabolism - physiology Genome, Bacterial - genetics Groundwater - microbiology Metabolic Networks and Pathways Oxygenases - metabolism Toluene - metabolism Zoogloea - genetics Zoogloea - metabolism
title	Genome analysis provides insights into microaerobic toluene-degradation pathway of Zoogloea oleivorans Buc T
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