An NADH:Quinone Oxidoreductase Active during Biodegradation by the Brown-Rot Basidiomycete
            <i>Gloeophyllum trabeum</i>

Jensen, K. A.; Ryan, Zachary C.; Wymelenberg, Amber Vanden; Cullen, Daniel; Hammel, Kenneth E.

doi:10.1128/aem.68.6.2699-2703.2002

Cited by 82 publications

(72 citation statements)

References 18 publications

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“…BbBqrA clustered relatively far from orthologous proteins in the brownand white-rot basidiomycetes, G. trabeum and P. chrysosporium, whose quinone reductases have been implicated in lignin biodegradation processes. Unlike these enzymes, however, B. bassiana BbBqrA does not contain a 5′-putative leader sequence for protein secretion (37,39). The secreted enzymes target cross-linked quinones present in extracellular lignin substrates (70).…”

Section: Discussionmentioning

confidence: 99%

“…The pathway involves the induction of NAD (P)H:quinone reductases, which catalyze the conversion of cytotoxic benzoquinone to (nontoxic) hydroquinone. Several quinone reductases have been purified and characterized and their genes cloned in both white-and brown-rot fungi (basidiomycetes) as part of lignin degradation pathways (37)(38)(39)(40). However, entomopathogenic fungi are incapable of lignin degradation, and no information is available regarding the presence and/or function of these enzymes in this group of fungi.…”

Section: Significancementioning

confidence: 99%

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Tenebrionid secretions and a fungal benzoquinone oxidoreductase form competing components of an arms race between a host and pathogen

Pedrini

Ortiz‐Urquiza

Huarte‐Bonnet

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

123

118

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Entomopathogenic fungi and their insect hosts represent a model system for examining invertebrate-pathogen coevolutionary selection processes. Here we report the characterization of competing components of an arms race consisting of insect protective antimicrobial compounds and evolving fungal mechanisms of detoxification. The insect pathogenic fungus Beauveria bassiana has a remarkably wide host range; however, some insects are resistant to fungal infection. Among resistant insects is the tenebrionid beetle Tribolium castaneum that produces benzoquinone-containing defensive secretions. Reduced fungal germination and growth was seen in media containing T. castaneum dichloromethane extracts or synthetic benzoquinone. In response to benzoquinone exposure, the fungus expresses a 1,4-benzoquinone oxidoreductase, BbbqrA, induced >40-fold. Gene knockout mutants (ΔBbbqrA) showed increased growth inhibition, whereas B. bassiana overexpressing BbbqrA (Bb::BbbqrAO) displayed increased resistance to benzoquinone compared with wild type. Increased benzoquinone reductase activity was detected in wild-type cells exposed to benzoquinone and in the overexpression strain. Heterologous expression and purification of BbBqrA in Escherichia coli confirmed NAD(P)H-dependent benzoquinone reductase activity. The ΔBbbqrA strain showed decreased virulence toward T. castaneum, whereas overexpression of BbbqrA increased mortality versus T. castaneum. No change in virulence was seen for the ΔBbbqrA or Bb::BbbqrAO strains when tested against the greater wax moth Galleria mellonella or the beetle Sitophilus oryzae, neither of which produce significant amounts of cuticular quinones. The observation that artificial overexpression of BbbqrA results in increased virulence only toward quinone-secreting insects implies the lack of strong selection or current failure of B. bassiana to counteradapt to this particular host defense throughout evolution.

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Section: Discussionmentioning

confidence: 99%

Section: Significancementioning

confidence: 99%

Tenebrionid secretions and a fungal benzoquinone oxidoreductase form competing components of an arms race between a host and pathogen

Pedrini

Ortiz‐Urquiza

Huarte‐Bonnet

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

123

118

View full text Add to dashboard Cite

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“…The Fenton reaction driven by DHB has been studied in different systems like metabolic pathways in biological systems (95)(96)(97) and advanced oxidation process (AOPs) to water or wastewater treatment (76,89,98,99) . This phenomenon has been explained by several authors through distinct reaction pathways: (I) DHBs can form complexes with Fe 3+ and then reduce it to Fe 2+ (100) .…”

Section: Dhb Driven Fenton Reactionmentioning

confidence: 99%

Fenton Reaction Driven by Iron Ligands

Salgado

Melín

Contreras

et al. 2013

J. Chil. Chem. Soc.

101

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One of the most important sources of reactive oxygen species (ROS) in biological systems is the Fenton reaction. In this, the Fe 2+ or Fe 3+ reacts with H 2 O 2 to produce ROS as the hydroxyl radical (•OH), superoxide radical (O 2 •-) and singlet oxygen ( 1 O 2 ). The main ROS, responsible for the high oxidizing power of the Fenton reaction, is not clear. Some authors claim that the principal reactive species is •OH, while others propose a ferryl specie (Fe 4+ or [FeO] 2+ ) (1,2) . Recently, have been proposed that the kind of reaction species produced depends mainly of pH and the iron composition of the coordination sphere. This is highlighted for Fe 3+ , because in mono and (some) bis-complexes Fe 3+ is reduced to Fe 2+ and there are some positions occupied by water or hydroxide ligands, readily to be exchanged by H 2 O 2 . On the other hand, in tris-complexes there are not any positions occupied by water or hydroxide, avoiding the formation of peroxo-complexes, necessary for Fenton or Fenton like reaction.The 1,2-dihydroxybenzenes (DHBs) have been described as modulators of Fenton reaction. The DHBs driven Fenton reaction have been used for environmental applications as an advanced oxidation process. Furthermore, these systems participate in different biological process, as the wood biodegradation by fungi and oxidative stress in neurodegenerative diseases.In this review, the effect of 1,2-dihydroxybenzenes on the activated species production by the Fenton and Fenton like reaction will be discussed and its participation in different systems.

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“…From the six possible electrochemical effects on the electrode surface for organic matter removal, the biodegradability improvement might be explained by the capacitive ion storage in the electrical double layer or Faradaic reactions on the electrode surface (Porada et al 2013b). The capacitive ion storage could effectively capture the polar organic molecule in the double layer, and the Faradaic reaction could be quinone into hydroquinone, which is easier for biodegradation (Jensen et al 2002). In this research, the author did not observe the hydroquinone formation or organics polarity change due to the complexity and high concentration of organic molecules in the real black liquor from refined cotton wastewater.…”

Section: Performance Of Electrosorption Treatment For Real Salinity Wmentioning

confidence: 66%

Electrosorption for organic pollutants removal and desalination by graphite and activated carbon fiber composite electrodes

Zhou

Wang

et al. 2015

Int. J. Environ. Sci. Technol.

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This paper investigates a new type of carbonbased electrodes, which were equipped with graphite and activated carbon fiber composite, to improve the performance of electrosorption. The results indicated that the highest desalination efficiency achieved 55 % and the optimal condition was 1.6 V voltage, 60 min retention time and 1.0 cm electrode distance. Freundlich isotherms successfully fitted with the respective behavior of the composite electrode and provided theoretical evidence for the desalination performance improvement. Applied in real black liquor of refined cotton, the graphite and activated carbon fiber composite electrodes achieved high removal efficiency for conductivity (59 %) and COD Cr (76 %). Similar removal performance was also observed in sodium copper chlorophyll wastewater, and removal efficiency was 37 % for conductivity and 14 % for COD Cr . For the first time, this research demonstrated the biodegradability improvement in real industrial wastewater via electrosorption treatment, suggesting a potential pretreatment technique for high-salinity wastewater.

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An NADH:Quinone Oxidoreductase Active during Biodegradation by the Brown-Rot Basidiomycete Gloeophyllum trabeum

Cited by 82 publications

References 18 publications

Tenebrionid secretions and a fungal benzoquinone oxidoreductase form competing components of an arms race between a host and pathogen

Tenebrionid secretions and a fungal benzoquinone oxidoreductase form competing components of an arms race between a host and pathogen

Fenton Reaction Driven by Iron Ligands

Electrosorption for organic pollutants removal and desalination by graphite and activated carbon fiber composite electrodes

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