Search results for "hydrocarbon degradation"

showing 4 items of 4 documents

Efficiency in hydrocarbon degradation and biosurfactant production by Joostella sp. A8 when grown in pure culture and consortia

2017

Abstract Joostella strains are emerging candidates for biosurfactant production. Here such ability was analyzed for Joostella strain A8 in comparison with Alcanivorax strain A53 and Pseudomonas strain A6, all previously isolated from hydrocarbon enrichment cultures made of polychaete homogenates. In pure cultures Joostella sp. A8 showed the highest stable emulsion percentage (78.33%), hydrophobicity rate (62.67%), and an optimal surface tension reduction during growth in mineral medium supplemented with diesel oil (reduction of about 12 mN/m), thus proving to be highly competitive with Alcanivorax and Pseudomonas strains. During growth in pure culture different level of biodegradation were …

0301 basic medicineEnvironmental EngineeringMicrobial Consortia010501 environmental sciences01 natural sciencesHydrocarbon degradationMicrobiologySurface-Active Agents03 medical and health sciencesEnvironmental ChemistryFood science0105 earth and related environmental sciencesGeneral Environmental Sciencechemistry.chemical_classificationbiologyStrain (chemistry)PseudomonasGeneral MedicineBiodegradationbiology.organism_classificationHydrocarbonsBiodegradation Environmental030104 developmental biologyHydrocarbonchemistryPure cultureEnvironmental PollutantsAlcanivoraxFlavobacteriaceaeJournal of Environmental Sciences
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Genome and phenotype microarray analyses of rhodococcus sp. BCP1 and rhodococcus opacus R7: Genetic determinants and metabolic abilities with environ…

2015

In this paper comparative genome and phenotype microarray analyses of Rhodococcus sp. BCP1 and Rhodococcus opacus R7 were performed. Rhodococcus sp. BCP1 was selected for its ability to grow on short-chain n-alkanes and R. opacus R7 was isolated for its ability to grow on naphthalene and on o-xylene. Results of genome comparison, includ- ing BCP1, R7, along with other Rhodococcus reference strains, showed that at least 30% of the genome of each strain presented unique sequences and only 50% of the predicted proteome was shared. To associate genomic features with metabolic capabilities of BCP1 and R7 strains, hundreds of different growth conditions were tested through Phenotype Microarray, b…

AROMATIC-COMPOUNDS; GENUS RHODOCOCCUS; HIGH-THROUGHPUT; PATHWAY; DEGRADATION; BIODEGRADATION; EQUI; PERFORMANCE; CATABOLISMGenomics RhodococcusGene predictionBacterial Proteinlcsh:MedicineBiologyGenomeXenobioticsRhodococcus opacusBacterial ProteinsRhodococcuslcsh:ScienceGenePhylogenyGeneticsComparative genomicsMultidisciplinarylcsh:RMetabolic Networks and PathwayPhenotype microarrayHigh-Throughput Nucleotide SequencingRhodococcus sp. BCP1 Rhodococcus opacus R7Genome analysisGene Expression Regulation BacterialGenomicsSequence Analysis DNAbiology.organism_classificationBIO/19 - MICROBIOLOGIA GENERALEBiodegradation EnvironmentalPhenotypeProteomeGenomiclcsh:QPhenotype MicroarrayRhodococcusMetabolic Networks and PathwaysRhodococcuhydrocarbon degradationResearch Article
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Endophytic Bacterial Community Structure and Function of Herbaceous Plants From Petroleum Hydrocarbon Contaminated and Non-contaminated Sites

2018

Bacterial endophytes (BEs) are non-pathogenic residents of healthy plant tissues that can confer benefits to plants. Many Bacterial endophytes have been shown to contribute to plant growth and health, alleviation of plant stress and to in-planta contaminant-degradation. This study examined the endophytic bacterial communities of plants growing abundantly in a heavily hydrocarbon contaminated site, and compared them to those found in the same species at a non-contaminated. We used culture- dependent and independent methods to characterize the community structure, hydrocarbon degrading capabilities, and plant growth promoting traits of cultivable endophytes isolated from Achillea millefolium,…

0301 basic medicineMicrobiology (medical)bacterial endophytesoil fieldlcsh:QR1-502Solidago canadensisMicrobiologyplant growth promoting bacterialcsh:Microbiology03 medical and health sciencesBotanyOriginal Research2. Zero hungerstem endosphereAchillea millefoliumbiologyPantoeafungiCommunity structurefood and beveragesContaminationHerbaceous plant16S ribosomal RNAbiology.organism_classificationplant microbiome030104 developmental biologyDaucus carotahydrocarbon degradationFrontiers in Microbiology
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Characterization of hydrocarbon-degrading and biosurfactant-producing Pseudomonas sp. P-1 strain as a potential tool for bioremediation of petroleum-…

2014

The Pseudomonas sp. P-1 strain, isolated from heavily petroleum hydrocarbon-contaminated soil, was investigated for its capability to degrade hydrocarbons and produce a biosurfactant. The strain degraded crude oil, fractions A5 and P3 of crude oil, and hexadecane (27, 39, 27 and 13 % of hydrocarbons added to culture medium were degraded, respectively) but had no ability to degrade phenanthrene. Additionally, the presence of gene-encoding enzymes responsible for the degradation of alkanes and naphthalene in the genome of the P-1 strain was reported. Positive results of blood agar and methylene blue agar tests, as well as the presence of gene rhl, involved in the biosynthesis of rhamnolipid, …

Health Toxicology and MutagenesisHydrocarbon degradationEnvironmental pollutionMicrobiologyCrude oilAgar platechemistry.chemical_compoundSoilSurface-Active AgentsBioremediationPseudomonasSoil PollutantsEnvironmental ChemistryFood scienceEnvironmental Restoration and Remediationchemistry.chemical_classificationbiologyChemistryPseudomonasRhamnolipidBiosurfactant productionGeneral MedicineBiodegradationPhenanthrenebiology.organism_classificationPollutionHydrocarbonsHydrocarbonBiodegradation EnvironmentalPetroleumRhamnolipidrhl genePseudomonas sp. P-1Environmental PollutionResearch ArticleEnvironmental Science and Pollution Research
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