Hydrocarbon degradation by thermophilic Nocardia otitidiscaviarum strain TSH1: physiological aspects

Indigenous thermophilic hydrocarbon degraders are of special significance for the bioremediation of oil-contaminated desert soils with ambient temperature of 45-50 °C. The first objective of this study was to demonstrate the hydrocarbon-degrading capability of Nocardia otitidiscaviarum TSH1 (DSM 450...

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Veröffentlicht in:	Journal of basic microbiology 2007-12, Vol.47 (6), p.534-539
Hauptverfasser:	Zeinali, Majid, Vossoughi, Manouchehr, Ardestani, Sussan K, Babanezhad, Esmaeil, Masoumian, Mohamadreza
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Sprache:	eng
Schlagworte:	Alkanes - metabolism Culture Media Hot Temperature Hydrocarbons - metabolism Nocardia Nocardia - growth & development Nocardia - metabolism Nocardia otitidiscaviarum PAHs Phenol Phenols - metabolism Polycyclic Aromatic Hydrocarbons - metabolism Straight-chain alkanes Thermophile
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container_title	Journal of basic microbiology
container_volume	47
creator	Zeinali, Majid Vossoughi, Manouchehr Ardestani, Sussan K Babanezhad, Esmaeil Masoumian, Mohamadreza
description	Indigenous thermophilic hydrocarbon degraders are of special significance for the bioremediation of oil-contaminated desert soils with ambient temperature of 45-50 °C. The first objective of this study was to demonstrate the hydrocarbon-degrading capability of Nocardia otitidiscaviarum TSH1 (DSM 45036) which grows optimally at 50 °C. Analysis of the metabolic profile of the strain TSH1 showed that it could metabolize phenol, intermediate-chain-length n -alkanes and some polycyclic aromatic hydrocarbons (PAHs) ranging in size from two to four fused rings efficiently, but not toluene and xylene. N. otitidiscaviarum TSH1 was able to survive and grow at phenol concentrations up to 875 mg l⁻¹. For the first time, the physiological response of a thermophilic Nocardia strain to poorly available hydrophobic compounds was also investigated. When grown on a mineral salt medium with hexadecane, N. otitidiscaviarum TSH1 showed very high affinity for the organic phase. Additionally, PAH-grown cells were considerably hydrophobic. The capacity of PAH-utilizing N. otitidiscaviarum TSH1 isolate to produce biosurfactants was also investigated. Fatty acids (C₁₄-C₁₈) were detected by GC-MS analysis during bacterial growth in PAH supplemented mineral media. High cell surface hydrophobicity and capability of N. otitidiscaviarum TSH1 to degrade different hydrocarbons at 50 °C may make it an ideal candidate to treat oil-contaminated desert soils. (© 2008 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim)
doi_str_mv	10.1002/jobm.200700283
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The first objective of this study was to demonstrate the hydrocarbon-degrading capability of Nocardia otitidiscaviarum TSH1 (DSM 45036) which grows optimally at 50 °C. Analysis of the metabolic profile of the strain TSH1 showed that it could metabolize phenol, intermediate-chain-length n -alkanes and some polycyclic aromatic hydrocarbons (PAHs) ranging in size from two to four fused rings efficiently, but not toluene and xylene. N. otitidiscaviarum TSH1 was able to survive and grow at phenol concentrations up to 875 mg l⁻¹. For the first time, the physiological response of a thermophilic Nocardia strain to poorly available hydrophobic compounds was also investigated. When grown on a mineral salt medium with hexadecane, N. otitidiscaviarum TSH1 showed very high affinity for the organic phase. Additionally, PAH-grown cells were considerably hydrophobic. The capacity of PAH-utilizing N. otitidiscaviarum TSH1 isolate to produce biosurfactants was also investigated. 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Basic Microbiol</addtitle><description>Indigenous thermophilic hydrocarbon degraders are of special significance for the bioremediation of oil-contaminated desert soils with ambient temperature of 45-50 °C. The first objective of this study was to demonstrate the hydrocarbon-degrading capability of Nocardia otitidiscaviarum TSH1 (DSM 45036) which grows optimally at 50 °C. Analysis of the metabolic profile of the strain TSH1 showed that it could metabolize phenol, intermediate-chain-length n -alkanes and some polycyclic aromatic hydrocarbons (PAHs) ranging in size from two to four fused rings efficiently, but not toluene and xylene. N. otitidiscaviarum TSH1 was able to survive and grow at phenol concentrations up to 875 mg l⁻¹. For the first time, the physiological response of a thermophilic Nocardia strain to poorly available hydrophobic compounds was also investigated. 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subjects	Alkanes - metabolism Culture Media Hot Temperature Hydrocarbons - metabolism Nocardia Nocardia - growth & development Nocardia - metabolism Nocardia otitidiscaviarum PAHs Phenol Phenols - metabolism Polycyclic Aromatic Hydrocarbons - metabolism Straight-chain alkanes Thermophile
title	Hydrocarbon degradation by thermophilic Nocardia otitidiscaviarum strain TSH1: physiological aspects
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