Search results for "Environmental microbiology"

showing 10 items of 48 documents

The wasted chewing gum bacteriome

2020

Here we show the bacteriome of wasted chewing gums from five different countries and the microbial successions on wasted gums during three months of outdoors exposure. In addition, a collection of bacterial strains from wasted gums was set, and the biodegradation capability of different gum ingredients by the isolates was tested. Our results reveal that the oral microbiota present in gums after being chewed, characterised by the presence of species such as Streptococcus spp. or Corynebacterium spp., evolves in a few weeks to an environmental bacteriome characterised by the presence of Acinetobacter spp., Sphingomonas spp. and Pseudomonas spp. Wasted chewing gums collected worldwide contain …

0301 basic medicineTime Factors030106 microbiologyCorynebacteriumlcsh:MedicineSolid WasteArticleApplied microbiologyChewing Gum03 medical and health sciencesFood sciencelcsh:ScienceBiotransformationMultidisciplinarybiologyEnvironmental microbiologyBacteriaMicrobiotaPseudomonaslcsh:RBiofilmBacteriomeAcinetobacterbiology.organism_classificationSphingomonasChewing gum3. Good healthKocuria030104 developmental biologylcsh:QScientific Reports
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Long-term genomic coevolution of host-parasite interaction in the natural environment

2017

Antagonistic coevolution of parasite infectivity and host resistance may alter the biological functionality of species, yet these dynamics in nature are still poorly understood. Here we show the molecular details of a long-term phage–bacterium arms race in the environment. Bacteria (Flavobacterium columnare) are generally resistant to phages from the past and susceptible to phages isolated in years after bacterial isolation. Bacterial resistance selects for increased phage infectivity and host range, which is also associated with expansion of phage genome size. We identified two CRISPR loci in the bacterial host: a type II-C locus and a type VI-B locus. While maintaining a core set of conse…

0301 basic medicineTime Factorsmedicine.medical_treatmentvirusesGeneral Physics and AstronomyGenomeCRISPR SpacersbakteeritBacteriophageEnvironmental MicrobiologyCRISPRBacteriophagesClustered Regularly Interspaced Short Palindromic RepeatsANTAGONISTIC COEVOLUTIONADAPTATIONbacteriaInfectivityGenetics0303 health scienceseducation.field_of_studyMultidisciplinaryQgenomiikkaBACTERIOPHAGE RESISTANCE MECHANISMSresistance (medicine)bacteriophagesPhage therapyScienceAntagonistic Coevolution030106 microbiologyPopulationevoluutioVirulencePHAGELocus (genetics)Genome ViralBiologyFlavobacteriumArticlebakteriofagitGeneral Biochemistry Genetics and Molecular BiologyHost-Parasite InteractionsEvolution Molecular03 medical and health sciencesCRISPR-CAS SYSTEMSFISHevolutionmedicinegenomicseducationGenome size1172 Environmental sciences030304 developmental biology030306 microbiologyGeneral Chemistrybiology.organism_classificationEVOLUTIONresistenssiPATHOGEN FLAVOBACTERIUM-COLUMNARE030104 developmental biologyMutationCRISPR LociVIRULENCEIMMUNE-SYSTEMGenome BacterialNature Communications
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The Antisense RNA Approach: a New Application for In Vivo Investigation of the Stress Response of Oenococcus oeni, a Wine-Associated Lactic Acid Bact…

2015

ABSTRACT Oenococcus oeni is a wine-associated lactic acid bacterium mostly responsible for malolactic fermentation in wine. In wine, O. oeni grows in an environment hostile to bacterial growth (low pH, low temperature, and ethanol) that induces stress response mechanisms. To survive, O. oeni is known to set up transitional stress response mechanisms through the synthesis of heat stress proteins (HSPs) encoded by the hsp genes, notably a unique small HSP named Lo18. Despite the availability of the genome sequence, characterization of O. oeni genes is limited, and little is known about the in vivo role of Lo18. Due to the lack of genetic tools for O. oeni , an efficient expression vector in O…

0301 basic medicine[SDV.BIO]Life Sciences [q-bio]/Biotechnology[ SDV.AEN ] Life Sciences [q-bio]/Food and Nutrition030106 microbiologyLactobacillus-plantarumWineEscherichia-coliApplied Microbiology and Biotechnologymolecular characterization03 medical and health sciencesGrowth-phaseBacterial ProteinsMembrane stabilizationHeat shock protein[SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry Molecular Biology/Genomics [q-bio.GN]Antisense TechnologyGene expression[SDV.IDA]Life Sciences [q-bio]/Food engineeringMalolactic fermentationEnvironmental MicrobiologyRNA AntisenseGene-expressionLactic AcidHeat-Shock ProteinsOenococcusOenococcus oeniLeuconostoc-oenosEcologybiologyEthanolLactococcus lactisMalolactic fermentation[ SDV.BIO ] Life Sciences [q-bio]/BiotechnologyGene Expression Regulation Bacterialbiology.organism_classification[SDV.MP.BAC]Life Sciences [q-bio]/Microbiology and Parasitology/BacteriologyAntisense RNABiochemistryLactococcus-lactisHeat-shock-proteinFermentationOenococcusFood ScienceBiotechnology
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The swinholide biosynthesis gene cluster from a terrestrial cyanobacterium, Nostoc sp. strain UHCC 0450

2017

ABSTRACT Swinholides are 42-carbon ring polyketides with a 2-fold axis of symmetry. They are potent cytotoxins that disrupt the actin cytoskeleton. Swinholides were discovered from the marine sponge Theonella sp. and were long suspected to be produced by symbiotic bacteria. Misakinolide, a structural variant of swinholide, was recently demonstrated to be the product of a symbiotic heterotrophic proteobacterium. Here, we report the production of swinholide A by an axenic strain of the terrestrial cyanobacterium Nostoc sp. strain UHCC 0450. We located the 85-kb trans -AT polyketide synthase (PKS) swinholide biosynthesis gene cluster from a draft genome of Nostoc sp. UHCC 0450. The swinholide …

0301 basic medicinemarine environmentterrestrial environmentDIVERSITYcyanobacteria01 natural sciencesApplied Microbiology and BiotechnologyBiochemistryTrans-AT PKSMARINE CYANOBACTERIAGene clusterEnvironmental MicrobiologyskeletonSPONGE THEONELLA-SWINHOEISpotlightAxenicNostocgene transfertoxinSwinholide1183 Plant biology microbiology virologyPhylogenychemistry.chemical_classificationEcologybiologyAnabaena sp.ChemistryAnabaenaHorizontal gene transferKetonesbacteriumenzyme activityphylogeneticsINSIGHTSBiochemistryMultigene Familyhorizontal gene transferscytophycinScandium compoundspolyketidesBiotechnologyNostoctrans-AT PKSScytophycinNONRIBOSOMAL PEPTIDEBiosynthesisCyanobacteriaswinholideCYTOTOXIC DIMERIC MACROLIDES03 medical and health sciencesPolyketideBacterial ProteinsNonribosomal peptidecyanobacteriumPolyketide synthaseProteobacteriaCONGENERSCandidatus Entotheonellabovine spongiform encephalopathygeneNostoc sp.Bacteriacatalysis010405 organic chemistryProteinsSequence Analysis DNAbiology.organism_classificationActin cytoskeletonAnabaenaEVOLUTION"Candidatus Entotheonella"0104 chemical sciencesenzymeNATURAL-PRODUCT DISCOVERY030104 developmental biologyGenesPolyketidesbiology.proteingene expressionbacteria“Candidatus Entotheonella”Theonella sp.Marine ToxinsPolyketide SynthasesFood Sciencecatalyst
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Antimicrobial activity of biogenically produced spherical Se-nanomaterials embedded in organic material against Pseudomonas aeruginosa and Staphyloco…

2017

In an effort to prevent the formation of pathogenic biofilms on hydroxyapatite (HA)-based clinical devices and surfaces, we present a study evaluating the antimicrobial efficacy of Spherical biogenic Se-Nanostructures Embedded in Organic material (Bio Se-NEMO-S) produced by Bacillus mycoides SelTE01 in comparison with two different chemical selenium nanoparticle (SeNP) classes. These nanomaterials have been studied as potential antimicrobials for eradication of established HA-grown biofilms, for preventing biofilm formation on HA-coated surfaces and for inhibition of planktonic cell growth of Pseudomonas aeruginosa NCTC 12934 and Staphylococcus aureus ATCC 25923. Bio Se-NEMO resulted more e…

Anti-Infective Agent0301 basic medicineStaphylococcus aureusMetal Nanoparticleschemistry.chemical_elementBacillusBiocompatible MaterialsBioengineeringBacillus02 engineering and technologymedicine.disease_causeApplied Microbiology and BiotechnologyBiochemistrybiofilmantimicrobialsNanomaterialsMicrobiologyHydroxyapatiteSelenium03 medical and health sciencesAnti-Infective AgentsBiogenic Selenium nanoparticles (SeNPs) Hydroxyapatite Bacillus biofilm antimicrobials green synthesisOrganometallic CompoundsEnvironmental MicrobiologymedicineResearch ArticlesBiocompatible MaterialOrganometallic CompoundbiologyPseudomonas aeruginosagreen synthesisBiofilmBacillus mycoides021001 nanoscience & nanotechnologybiology.organism_classificationAntimicrobialBacilluDurapatite030104 developmental biologychemistryStaphylococcus aureusBiofilmsPseudomonas aeruginosaStaphylococcus aureu0210 nano-technologySeleniumResearch ArticleBiotechnologyBiogenic Selenium nanoparticles (SeNPs)
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Diversity and Evolution of the Phenazine Biosynthesis Pathway

2010

ABSTRACT Phenazines are versatile secondary metabolites of bacterial origin that function in biological control of plant pathogens and contribute to the ecological fitness and pathogenicity of the producing strains. In this study, we employed a collection of 94 strains having various geographic, environmental, and clinical origins to study the distribution and evolution of phenazine genes in members of the genera Pseudomonas , Burkholderia , Pectobacterium , Brevibacterium , and Streptomyces . Our results confirmed the diversity of phenazine producers and revealed that most of them appear to be soil-dwelling and/or plant-associated species. Genome analyses and comparisons of phylogenies inf…

Antifungal Agentsgenome sequenceaeruginosa pao1virulence factorsphenazine-1-carboxylic acidVIRULENCE FACTORS GENE-CLUSTERApplied Microbiology and Biotechnologychemistry.chemical_compoundGene clusterEnvironmental MicrobiologyPhylogenySoil Microbiologyfluorescent pseudomonas2. Zero hungerGenetics0303 health sciencesEcologybiologyEPS-2PseudomonasPlants[SDV.MP]Life Sciences [q-bio]/Microbiology and ParasitologyMultigene FamilyHorizontal gene transferBiotechnologyDNA BacterialWashingtonPectobacteriumGene Transfer HorizontalGenotypeSequence analysisMolecular Sequence DataPhenazineerwinia-herbicola eh1087pseudomonas-chlororaphis pcl1391Evolution Molecular03 medical and health sciencesBacterial ProteinsPseudomonasBotanyEscherichia coli030304 developmental biologyBacteriaBase SequencePSEUDOMONAS-CHLORORAPHIS030306 microbiologybiological-controlGene Expression Regulation BacterialSequence Analysis DNA15. Life on landbiology.organism_classificationrpoBERWINIA-HERBICOLAPHENAZINEBiosynthetic Pathwaysgene-clusterLaboratorium voor PhytopathologieBurkholderiachemistryGenes BacterialLaboratory of PhytopathologyPhenazinesburkholderia-cepacia complexSequence AlignmentFood Science
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Pathogenic Aeromonas hydrophila Serogroup O:14 and O:81 Strains with an S Layer

2004

ABSTRACT Five autoagglutinating Aeromonas hydrophila isolates recovered from eels and humans were assigned to serogroups O:14 and O:81 of the Sakazaki and Shimada (National Institutes of Health) scheme. They had the following properties in common: positive precipitation after boiling, moderate surface hydrophobicity (salt-aggregation-test value around 1.2), pathogenicity for fish and mice (50% lethal dose, 10 4.61 to 10 7.11 ), lipopolysaccharides that contained O-polysaccharide chains of homogeneous chain length, and an external S layer peripheral to the cell wall observed by electron microscopy. A strong cross-reactivity was detected by immunoblotting between the homogeneous O-polysacchar…

Applied Microbiology and BiotechnologyMicrobiologyMiceBacterial ProteinsSpecies SpecificityVibrionaceaeEnvironmental MicrobiologyAnimalsHumansSerotypingEelsVirulenceEcologybiologyStrain (chemistry)EcologyStructural geneMembrane Proteinsbiology.organism_classificationAeromonas hydrophilaMolecular WeightMicroscopy ElectronAeromonas salmonicidaAeromonas hydrophilaAeromonasGenes BacterialS-layerBacteriaFood ScienceBiotechnologyApplied and Environmental Microbiology
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Shared Binding Sites for the Bacillus thuringiensis Proteins Cry3Bb, Cry3Ca, and Cry7Aa in the African Sweet Potato Pest Cylas puncticollis (Brentida…

2014

ABSTRACT Bacillus thuringiensis Cry3Bb, Cry3Ca, and Cry7Aa have been reported to be toxic against larvae of the genus Cylas , which are important pests of sweet potato worldwide and particularly in sub-Saharan Africa. However, relatively little is known about the processing and binding interactions of these coleopteran-specific Cry proteins. The aim of the present study was to determine whether Cry3Bb, Cry3Ca, and Cry7Aa proteins have shared binding sites in Cylas puncticollis to orient the pest resistance strategy by genetic transformation. Interestingly, processing of the 129-kDa Cry7Aa protoxin using commercial trypsin or chymotrypsin rendered two fragments of about 70 kDa and 65 kDa. N-…

Brush borderBacillus thuringiensisBiological pest controlHemolysin ProteinsApplied Microbiology and BiotechnologyMicrobiologyHemolysin ProteinsBacterial ProteinsBacillus thuringiensisEnvironmental MicrobiologymedicineAnimalsIpomoea batatasBinding sitePlant DiseasesBinding SitesChymotrypsinBacillus thuringiensis ToxinsEcologybiologyfungiTrypsinbiology.organism_classificationColeopteraEndotoxinsLarvabiology.proteinPEST analysisFood ScienceBiotechnologymedicine.drugApplied and Environmental Microbiology
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Platinum chloride-based viability RT-qPCR for SARS-CoV-2 detection in complex samples.

2021

Isolation, contact tracing and restrictions on social movement are being globally implemented to prevent and control onward spread of SARS-CoV-2, even though the infection risk modelled on RNA detection by RT-qPCR remains biased as viral shedding and infectivity are not discerned. Thus, we aimed to develop a rapid viability RT-qPCR procedure to infer SARS-CoV-2 infectivity in clinical specimens and environmental samples. We screened monoazide dyes and platinum compounds as viability molecular markers on five SARS-CoV-2 RNA targets. A platinum chloride-based viability RT-qPCR was then optimized using genomic RNA, and inactivated SARS-CoV-2 particles inoculated in buffer, stool, and urine. Ou…

Coronavirus disease 2019 (COVID-19)Molecular biologySevere acute respiratory syndrome coronavirus 2 (SARS-CoV-2)SciencePlatinum CompoundsSensitivity and SpecificityMicrobiologyArticleDisease OutbreaksAigües residualsVirologyHumansViral sheddingInfectivityMultidisciplinaryEnvironmental microbiologyReverse Transcriptase Polymerase Chain ReactionSARS-CoV-2Platinum compoundsBiological techniquesQROutbreakRNACOVID-19Platinum chlorideVirologyVirus SheddingEnvironmental sciencesRNA ViralMedicineContact Tracing
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Geographical and temporal structures of Legionella pneumophila sequence types in comunitat valenciana (Spain), 1998 to 2013

2015

ABSTRACT Legionella pneumophila is an accidental human pathogen associated with aerosol formation in water-related sources. High recombination rates make Legionella populations genetically diverse, and nearly 2,000 different sequence types (STs) have been described to date for this environmental pathogen. The spatial distribution of STs is extremely heterogeneous, with some variants being present worldwide and others being detected at only a local scale. Similarly, some STs have been associated with disease outbreaks, such as ST578 or ST23. Spain is among the European countries with the highest incidences of reported legionellosis cases, and specifically, Comunitat Valenciana (CV) is the se…

DNA BacterialBIOFILMS[SDV.BIO]Life Sciences [q-bio]/BiotechnologyGenotypeLegionellaOUTBREAKSequence HomologyZoologyRECOMBINATIONHuman pathogenLEGIONNAIRES-DISEASESOFTWAREBiologySpatial distributionApplied Microbiology and BiotechnologyLegionella pneumophilaLegionella pneumophilaMicrobiology03 medical and health sciencesSpatio-Temporal AnalysisEnvironmental MicrobiologyCluster AnalysisHumansTypingPOPULATION-STRUCTUREPhylogeny030304 developmental biology0303 health sciencesEcologyPublic and Environmental Health Microbiology030306 microbiologySTRAINSSCHEMELocal scaleGenetic VariationOutbreakSequence Analysis DNASequence typesbiology.organism_classification3. Good healthMolecular TypingLIFE[SDV.MP]Life Sciences [q-bio]/Microbiology and ParasitologySpainLegionnaires' DiseaseFood ScienceBiotechnology
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