Literature DB >> 17890343

Comparative transcriptome analysis of Methylibium petroleiphilum PM1 exposed to the fuel oxygenates methyl tert-butyl ether and ethanol.

Krassimira R Hristova1, Radomir Schmidt, Anu Y Chakicherla, Tina C Legler, Janice Wu, Patrick S Chain, Kate M Scow, Staci R Kane.   

Abstract

High-density whole-genome cDNA microarrays were used to investigate substrate-dependent gene expression of Methylibium petroleiphilum PM1, one of the best-characterized aerobic methyl tert-butyl ether (MTBE)-degrading bacteria. Differential gene expression profiling was conducted with PM1 grown on MTBE and ethanol as sole carbon sources. Based on microarray high scores and protein similarity analysis, an MTBE regulon located on the megaplasmid was identified for further investigation. Putative functions for enzymes encoded in this regulon are described with relevance to the predicted MTBE degradation pathway. A new unique dioxygenase enzyme system that carries out the hydroxylation of tert-butyl alcohol to 2-methyl-2-hydroxy-1-propanol in M. petroleiphilum PM1 was discovered. Hypotheses regarding the acquisition and evolution of MTBE genes as well as the involvement of IS elements in these complex processes were formulated. The pathways for toluene, phenol, and alkane oxidation via toluene monooxygenase, phenol hydroxylase, and propane monooxygenase, respectively, were upregulated in MTBE-grown cells compared to ethanol-grown cells. Four out of nine putative cyclohexanone monooxygenases were also upregulated in MTBE-grown cells. The expression data allowed prediction of several hitherto-unknown enzymes of the upper MTBE degradation pathway in M. petroleiphilum PM1 and aided our understanding of the regulation of metabolic processes that may occur in response to pollutant mixtures and perturbations in the environment.

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Year:  2007        PMID: 17890343      PMCID: PMC2168209          DOI: 10.1128/AEM.01604-07

Source DB:  PubMed          Journal:  Appl Environ Microbiol        ISSN: 0099-2240            Impact factor:   4.792


  51 in total

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3.  Aerobic biodegradation of methyl tert-butyl ether by aquifer bacteria from leaking underground storage tank sites.

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4.  Analysis of Pseudomonas putida alkane-degradation gene clusters and flanking insertion sequences: evolution and regulation of the alk genes.

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Review 5.  MTBE and gasoline hydrocarbons in ground water of the United States.

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6.  Physiological changes and alk gene instability in Pseudomonas oleovorans during induction and expression of alk genes.

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8.  Small-volume releases of gasoline in the vadose zone: impact of the additives MTBE and ethanol on groundwater quality.

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10.  Impact of ethanol on the natural attenuation of MTBE in a normally sulfate-reducing aquifer.

Authors:  Doug Mackay; Nick de Sieyes; Murray Einarson; Kevin Feris; Alex Pappas; Isaac Wood; Lisa Jacobson; Larry Justice; Mark Noske; John Wilson; Cherri Adair; Kate Scow
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2.  Gene mdpC plays a regulatory role in the methyl-tert-butyl ether degradation pathway of Methylibium petroleiphilum strain PM1.

Authors:  Geetika Joshi; Radomir Schmidt; Kate M Scow; Michael S Denison; Krassimira R Hristova
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Review 5.  The expanding world of methylotrophic metabolism.

Authors:  Ludmila Chistoserdova; Marina G Kalyuzhnaya; Mary E Lidstrom
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6.  Successful treatment of an MTBE-impacted aquifer using a bioreactor self-colonized by native aquifer bacteria.

Authors:  Kristin A Hicks; Radomir Schmidt; Michael G Nickelsen; Susan L Boyle; Jeffrey M Baker; Paul M Tornatore; Krassimira R Hristova; Kate M Scow
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Review 7.  Biosynthesis of 2-hydroxyisobutyric acid (2-HIBA) from renewable carbon.

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9.  Constitutive expression of the cytochrome P450 EthABCD monooxygenase system enables degradation of synthetic dialkyl ethers in Aquincola tertiaricarbonis L108.

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10.  Involvement of a novel enzyme, MdpA, in methyl tert-butyl ether degradation in Methylibium petroleiphilum PM1.

Authors:  Radomir Schmidt; Vince Battaglia; Kate Scow; Staci Kane; Krassimira R Hristova
Journal:  Appl Environ Microbiol       Date:  2008-09-12       Impact factor: 4.792
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