Identification of genes involved in the degradation of polycyclic aromatic hydrocarbons by two Sphingomonas species
Polycyclic aromatic hydrocarbons (PAHs) are widespread hazardous, hydrophobic pollutants made of fused benzene rings. Besides of being present in large quantities in petroleum and related products they are formed generally during the incomplete combustion of organic matter. During evolution, bacteri...
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ndltd-BICfB-oai-ucl.ac.be-ETDUCL-BelnUcetd-11202007-1516262013-01-07T15:42:05Z Identification of genes involved in the degradation of polycyclic aromatic hydrocarbons by two Sphingomonas species Schuler, Luc Biodegradation Dioxygenases Polycyclic aromatic hydrocarbons (PAHs) are widespread hazardous, hydrophobic pollutants made of fused benzene rings. Besides of being present in large quantities in petroleum and related products they are formed generally during the incomplete combustion of organic matter. During evolution, bacteria have become capable of using such recalcitrant compounds as growth substrates. Hundreds of species of bacteria have been identified that can metabolise a wide range of contaminants, being of potential use in bioremediation strategies. The types of molecules that can be degraded depend on the metabolic pathway in each species. The genes involved in the initial attack on fluorene by Sphingomonas sp. strain LB126 were investigated. The a and b subunits of a dioxygenase complex (FlnA1A2), showing 63% and 51% sequence identity respectively, with the subunits of an angular dioxygenase from the Gram-positive dibenzofuran degrader Terrabacter sp. strain DBF63, were identified. When overexpressed in E. coli, FlnA1A2 was responsible for the angular oxidation of fluorene, fluorenol, fluorenone, dibenzofuran and dibenzo-p-dioxin. Moreover, FlnA1A2 was able to oxidize polycyclic aromatic hydrocarbons and heteroaromatics, some of which were not oxidized by the dioxygenase from Terrabacter sp. strain DBF63. Quantification of resulting oxidation products showed that fluorene and phenanthrene were the preferred substrates of FlnA1A2. Sphingomonas sp. strain LH128 harbors a naphthalene dioxygenase (PhnA1A2f) responsible for the oxidation of PAHs made of up to four rings, monochlorinated biphenyls and dibenzo-p-dioxin. PhnA1A2f shows exceptionally broad substrate specificity towards various pollutants in contrast to other naphthalene dioxygenases whose activity is limited to two- and three-ring PAHs. Moreover a conserved catabolic gene cluster could be isolated harboring 13 genes involved in PAH degradation. Sequence comparison with the initial dioxygenase of Sphingomonas sp. strain CHY-1 showed that the amino acids lining the catalytic pocket are conserved. The variation in substrate specificity of the two dioxygenases demonstrates that substitutions outside of the catalytic pocket can have marked effects on the substrate range of dioxygenase enzymes. Universite catholique de Louvain 2007-12-13 text application/pdf http://edoc.bib.ucl.ac.be:81/ETD-db/collection/available/BelnUcetd-11202007-151626/ http://edoc.bib.ucl.ac.be:81/ETD-db/collection/available/BelnUcetd-11202007-151626/ en unrestricted J'accepte que le texte de la thèse (ci-après l'oeuvre), sous réserve des parties couvertes par la confidentialité, soit publié dans le recueil électronique des thèses UCL. A cette fin, je donne licence à l'UCL : - le droit de fixer et de reproduire l'oeuvre sur support électronique : logiciel ETD/db - le droit de communiquer l'oeuvre au public Cette licence, gratuite et non exclusive, est valable pour toute la durée de la propriété littéraire et artistique, y compris ses éventuelles prolongations, et pour le monde entier. Je conserve tous les autres droits pour la reproduction et la communication de la thèse, ainsi que le droit de l'utiliser dans de futurs travaux. Je certifie avoir obtenu, conformément à la législation sur le droit d'auteur et aux exigences du droit à l'image, toutes les autorisations nécessaires à la reproduction dans ma thèse d'images, de textes, et/ou de toute oeuvre protégés par le droit d'auteur, et avoir obtenu les autorisations nécessaires à leur communication à des tiers. Au cas où un tiers est titulaire d'un droit de propriété intellectuelle sur tout ou partie de ma thèse, je certifie avoir obtenu son autorisation écrite pour l'exercice des droits mentionnés ci-dessus. |
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Others
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Biodegradation Dioxygenases |
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Biodegradation Dioxygenases Schuler, Luc Identification of genes involved in the degradation of polycyclic aromatic hydrocarbons by two Sphingomonas species |
description |
Polycyclic aromatic hydrocarbons (PAHs) are widespread hazardous, hydrophobic pollutants made of fused benzene rings. Besides of being present in large quantities in petroleum and related products they are formed generally during the incomplete combustion of organic matter. During evolution, bacteria have become capable of using such recalcitrant compounds as growth substrates. Hundreds of species of bacteria have been identified that can metabolise a wide range of contaminants, being of potential use in bioremediation strategies. The types of molecules that can be degraded depend on the metabolic pathway in each species.
The genes involved in the initial attack on fluorene by Sphingomonas sp. strain LB126 were investigated. The a and b subunits of a dioxygenase complex (FlnA1A2), showing 63% and 51% sequence identity respectively, with the subunits of an angular dioxygenase from the Gram-positive dibenzofuran degrader Terrabacter sp. strain DBF63, were identified. When overexpressed in E. coli, FlnA1A2 was responsible for the angular oxidation of fluorene, fluorenol, fluorenone, dibenzofuran and dibenzo-p-dioxin. Moreover, FlnA1A2 was able to oxidize polycyclic aromatic hydrocarbons and heteroaromatics, some of which were not oxidized by the dioxygenase from Terrabacter sp. strain DBF63. Quantification of resulting oxidation products showed that fluorene and phenanthrene were the preferred substrates of FlnA1A2.
Sphingomonas sp. strain LH128 harbors a naphthalene dioxygenase (PhnA1A2f) responsible for the oxidation of PAHs made of up to four rings, monochlorinated biphenyls and dibenzo-p-dioxin. PhnA1A2f shows exceptionally broad substrate specificity towards various pollutants in contrast to other naphthalene dioxygenases whose activity is limited to two- and three-ring PAHs. Moreover a conserved catabolic gene cluster could be isolated harboring 13 genes involved in PAH degradation. Sequence comparison with the initial dioxygenase of Sphingomonas sp. strain CHY-1 showed that the amino acids lining the catalytic pocket are conserved. The variation in substrate specificity of the two dioxygenases demonstrates that substitutions outside of the catalytic pocket can have marked effects on the substrate range of dioxygenase enzymes. |
author |
Schuler, Luc |
author_facet |
Schuler, Luc |
author_sort |
Schuler, Luc |
title |
Identification of genes involved in the degradation of polycyclic aromatic hydrocarbons by two Sphingomonas species |
title_short |
Identification of genes involved in the degradation of polycyclic aromatic hydrocarbons by two Sphingomonas species |
title_full |
Identification of genes involved in the degradation of polycyclic aromatic hydrocarbons by two Sphingomonas species |
title_fullStr |
Identification of genes involved in the degradation of polycyclic aromatic hydrocarbons by two Sphingomonas species |
title_full_unstemmed |
Identification of genes involved in the degradation of polycyclic aromatic hydrocarbons by two Sphingomonas species |
title_sort |
identification of genes involved in the degradation of polycyclic aromatic hydrocarbons by two sphingomonas species |
publisher |
Universite catholique de Louvain |
publishDate |
2007 |
url |
http://edoc.bib.ucl.ac.be:81/ETD-db/collection/available/BelnUcetd-11202007-151626/ |
work_keys_str_mv |
AT schulerluc identificationofgenesinvolvedinthedegradationofpolycyclicaromatichydrocarbonsbytwosphingomonasspecies |
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1716393754024214528 |