Search results for "Bacteriophages"

showing 10 items of 72 documents

Cryo-EM structure of ssDNA bacteriophage ΦCjT23 provides insight into early virus evolution.

2022

AbstractThe origin of viruses remains an open question. While lack of detectable sequence similarity hampers the analysis of distantly related viruses, structural biology investigations of conserved capsid protein structures facilitate the study of distant evolutionary relationships. Here we characterize the lipid-containing ssDNA temperate bacteriophage ΦCjT23, which infects Flavobacterium sp. (Bacteroidetes). We report ΦCjT23-like sequences in the genome of strains belonging to several Flavobacterium species. The virion structure determined by cryogenic electron microscopy reveals similarities to members of the viral kingdom Bamfordvirae that currently consists solely of dsDNA viruses wit…

/631/326/1321bacteriophagesviruksetcryoelectron microscopyevoluutioGeneral Physics and AstronomyelektronimikroskopiaDNA Single-Stranded/45/23FlavobacteriumGeneral Biochemistry Genetics and Molecular Biologybakteriofagit/631/45/535/1258/1259viral evolution/631/326/596/2554BacteriophagesMultidisciplinaryfylogenia/45fylogenetiikkaCryoelectron Microscopy/101/28articleGeneral Chemistryperimä1182 Biochemistry cell and molecular biologyCapsid Proteins

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Protist predation can select for bacteria with lowered susceptibility to infection by lytic phages

2015

Background: Consumer-resource interactions constitute one of the most common types of interspecific antagonistic interaction. In natural communities, complex species interactions are likely to affect the outcomes of reciprocal co-evolution between consumers and their resource species. Individuals face multiple enemies simultaneously, and consequently they need to adapt to several different types of enemy pressures. In this study, we assessed how protist predation affects the susceptibility of bacterial populations to infection by viral parasites, and whether there is an associated cost of defence on the competitive ability of the bacteria. As a study system we used Serratia marcescens and i…

0106 biological sciencesDYNAMICSMultiple species interactionalkueliötPhage resistancePREYTrade-offmedicine.disease_cause01 natural sciencesBacteriophageDECREASED VIRULENCEBacteriophagesHETEROGENEITYPhage-host interactionSerratia marcescens2. Zero hungerGenetics0303 health scienceseducation.field_of_studybiologyTetrahymenaProtistProtistsBiological Evolution010601 ecologyLytic cycle1181 Ecology evolutionary biologyResearch ArticleAntagonistic co-evolutionVIRUSESPopulationRESISTANT MUTANTSPseudomonas fluorescensSerratiabakteriofagitMicrobiologyTetrahymena thermophilaMECHANISMS03 medical and health sciencesmedicineHost-parasite interactioneducationEcosystemEcology Evolution Behavior and Systematics030304 developmental biologyCOEVOLUTION15. Life on landbiology.organism_classificationEVOLUTIONMODELPseudomonas fluorescens SBW25Serratia marcescensBacteria

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Beyond cells – The virome in the human holobiont

2019

Viromics, or viral metagenomics, is a relatively new and burgeoning field of research that studies the complete collection of viruses forming part of the microbiota in any given niche. It has strong foundations rooted in over a century of discoveries in the field of virology and recent advances in molecular biology and sequencing technologies. Historically, most studies have deconstructed the concept of viruses into a simplified perception of viral agents as mere pathogens, which demerits the scope of large-scale viromic analyses. Viruses are, in fact, much more than regular parasites. They are by far the most dynamic and abundant entity and the greatest killers on the planet, as well as th…

0209 industrial biotechnologyViral metagenomicsHistorybacteriophagesdatabases02 engineering and technologyReviewBiochemistry Genetics and Molecular Biology (miscellaneous)MicrobiologyApplied Microbiology and BiotechnologyGenetic engineeringtaxonomy020901 industrial engineering & automationVirology0202 electrical engineering electronic engineering information engineeringGeneticsmicrobiotaHuman viromeMolecular Biologylcsh:QH301-705.5020208 electrical & electronic engineeringEnvironmental ethicsCell BiologyHolobiontlcsh:Biology (General)MetagenomicsViral studiesParasitologyviral metagenomicsMicrobial Cell

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Half a Century of Research on Membrane-Containing Bacteriophages: Bringing New Concepts to Modern Virology

2019

Half a century of research on membrane-containing phages has had a major impact on virology, providing new insights into virus diversity, evolution and ecological importance. The recent revolutionary technical advances in imaging, sequencing and lipid analysis have significantly boosted the depth and volume of knowledge on these viruses. This has resulted in new concepts of virus assembly, understanding of virion stability and dynamics, and the description of novel processes for viral genome packaging and membrane-driven genome delivery to the host. The detailed analyses of such processes have given novel insights into DNA transport across the protein-rich lipid bilayer and the transformati…

0301 basic medicineArchaeal VirusesModels Molecularcorticoviridaeviruksetviruses030106 microbiologyPopulationlcsh:QR1-502lipid-containing bacteriophagevirus–host interactionReviewGenomeViruslcsh:MicrobiologybakteriofagitEvolution Molecular03 medical and health sciencesViral genome packagingplasmaviridaetectiviridaeVirologyBacteriophage PRD1Bacteriophageseducationvirus evolutioneducation.field_of_studyMembranesbiologyvirus-host interactionVirus Assemblyta1183Virionta1182Archaeal Virusescystoviridaebiology.organism_classificationVirology030104 developmental biologyInfectious DiseasesPlasmaviridaeCapsidViral evolutionDNA ViralCapsid ProteinsViruses

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New ΦBT1 site-specific integrative vectors with neutral phenotype in Streptomyces.

2016

Integrative plasmids are one of the best options to introduce genes in low copy and in a stable form into bacteria. The ΦC31-derived plasmids constitute the most common integrative vectors used in Streptomyces. They integrate at different positions (attB and pseudo-attB sites) generating different mutations. The less common ΦBT1-derived vectors integrate at the unique attB site localized in the SCO4848 gene (S. coelicolor genome) or their orthologues in other streptomycetes. This work demonstrates that disruption of SCO4848 generates a delay in spore germination. SCO4848 is co-transcribed with SCO4849, and the spore germination phenotype is complemented by SCO4849. Plasmids pNG1-4 were crea…

0301 basic medicineGenetics Microbial030106 microbiologyGenetic VectorsSettore BIO/19 - Microbiologia GeneraleGenomeStreptomycesApplied Microbiology and Biotechnology03 medical and health sciencesPlasmidAmp resistanceSpore germinationEscherichia coliNeutral phenotypeBacteriophagesVector (molecular biology)GeneMolecular BiologyGeneticsRecombination GeneticbiologyfungiGeneral Medicinebiology.organism_classificationPhenotypeΦBT1 integrative vectorStreptomyces030104 developmental biologyPhenotypeStreptomyceHeterologous expression; Neutral phenotype; Streptomyces; ΦBT1 integrative vector; Biotechnology; Applied Microbiology and BiotechnologyHeterologous expressionBiotechnologyPlasmidsApplied microbiology and biotechnology

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Phage Biodiversity in Artisanal Cheese Wheys Reflects the Complexity of the Fermentation Process

2017

Dairy fermentations constitute a perfect âbreeding groundâ for bacteriophages infecting starter cultures, particularly strains of Lactococcus lactis. In modern fermentations, these phages typically belong to one of three groups, i.e., the 936, P335, and c2 phage groups. Traditional production methods present fewer chemical and physical barriers to phage proliferation compared to modern production systems, while the starter cultures used are typically complex, variable, and undefined. In the current study, a variety of cheese whey, animal-derived rennet, and vat swab samples from artisanal cheeses produced in Sicily were analysed for the presence of lactococcal phages to assess phage div…

0301 basic medicineHot TemperaturevirusesLactococcusLactococcu030106 microbiologylcsh:QR1-502Bacteriophage; Cheese; Dairy fermentation; Infection; Lactococcus lactis; Animals; Bacteriophages; Cheese; Fermentation; Genetic Variation; Genome Bacterial; Hot Temperature; Lactococcus; Microbial Viability; Phylogeny; Sequence Analysis DNA; Sicily; Whey; Biodiversity; Infectious Diseases; VirologyInfectious Diseasebacteriophage; <i>Lactococcus lactis</i>; dairy fermentation; cheese; infectionArticlelcsh:MicrobiologyDairy fermentationMicrobiologyBacteriophageSettore AGR/17 - Zootecnica Generale E Miglioramento Genetico03 medical and health sciencesStarterCheesePhylogeneticsWheyVirologyLactococcusAnimalsBacteriophagesFood scienceLactococcus lactiBacteriophageSicilyPhylogenyGenetic diversityMicrobial ViabilitybiologyAnimalLactococcus lactisGenetic VariationSequence Analysis DNABiodiversitybiology.organism_classificationLactococcus lactisInfectious DiseasesFermentationFermentationRennetInfectionGenome BacterialSettore AGR/16 - Microbiologia AgrariaViruses

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Enhanced Antibacterial Activity of Repurposed Mitomycin C and Imipenem in Combination with the Lytic Phage vB_KpnM-VAC13 against Clinical Isolates of…

2021

Study Group on Mechanisms of Action and Resistance to Antimicrobials (GEMARA) on behalf of the Spanish Society of Infectious Diseases and Clinical Microbiology (SEIMC).

0301 basic medicineImipenemKlebsiella pneumoniaemedicine.drug_classMitomycin030106 microbiologyAntibioticsResistanceDrug repurposingMicrobial Sensitivity TestsBacteriophage therapybeta-LactamasesMicrobiologyPersistence03 medical and health sciencesMechanisms of Resistancemedicinepolycyclic compoundsHumansPharmacology (medical)BacteriophagesPathogenhealth care economics and organizationsPharmacologybiologyMitomycin CBroth microdilutionbiochemical phenomena metabolism and nutritionbiology.organism_classificationAntimicrobialhumanitiesAnti-Bacterial AgentsKlebsiella InfectionsSynergyImipenemKlebsiella pneumoniae030104 developmental biologyInfectious DiseasesLytic cyclemedicine.drugAntimicrobial agents and chemotherapy

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Bacteriophages: Protagonists of a Post-Antibiotic Era

2018

This article belongs to the Special Issue Bacteriophages: Alternatives to Antibiotics and Beyond.

0301 basic medicineMicrobiology (medical)Phage therapyPhage therapyAntibiotic resistancemedicine.drug_classmedicine.medical_treatmentAntibioticsReviewBiologyBiochemistryMicrobiologyEnzybiotics03 medical and health sciencesAntibiotic resistancemedicineBacteriophagesPharmacology (medical)General Pharmacology Toxicology and Pharmaceuticsbusiness.industrylcsh:RM1-950Ecological safetyEnzybioticsBiotechnologylcsh:Therapeutics. Pharmacology030104 developmental biologyInfectious DiseasesPhage displaybusinessAntibiotics

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Scoping the effectiveness and evolutionary obstacles in using plasmid-dependent phages to fight antibiotic resistance

2016

Aim: To investigate the potential evolutionary obstacles in the sustainable therapeutic use of plasmid-dependent phages to control the clinically important conjugative plasmid-mediated dissemination of antibiotic resistance genes to pathogenic bacteria. Materials & methods: The lytic plasmid-dependent phage PRD1 and the multiresistance conferring plasmid RP4 in an Escherichia coli host were utilized to assess the genetic and phenotypic changes induced by combined phage and antibiotic selection. Results & conclusions: Resistance to PRD1 was always coupled with either completely lost or greatly reduced conjugation ability. Reversion to full conjugation efficiency was found to be rare…

0301 basic medicineMicrobiology (medical)Phage therapymedicine.medical_treatment030106 microbiologyBiologymedicine.disease_causeMicrobiologyMicrobiology03 medical and health sciencesPlasmidAntibiotic resistanceDrug Resistance BacterialEscherichia colimedicineHumansBacteriophagesEscherichia coliEscherichia coli InfectionsGeneticsBacterial conjugationPathogenic bacteriaAnti-Bacterial AgentsLytic cycleConjugation GeneticHorizontal gene transferPlasmidsFuture Microbiology

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The Use and Abuse of LexA by Mobile Genetic Elements

2016

The SOS response is an essential process for responding to DNA damage in bacteria. The expression of SOS genes is under the control of LexA, a global transcription factor that undergoes self-cleavage during stress to allow the expression of DNA repair functions and delay cell division until the damage is rectified. LexA also regulates genes that are not part of this cell rescue program, and the induction of bacteriophages, the movement of pathogenicity islands, and the expression of virulence factors and bacteriocins are all controlled by this important transcription factor. Recently it has emerged that when regulating the expression of genes from mobile genetic elements (MGEs), LexA often …

0301 basic medicineMicrobiology (medical)Transcription GeneticDNA repair030106 microbiologyRegulatorBiologyRegulonMicrobiology03 medical and health sciencesBacterial ProteinsVirologyGene expressionBacteriophagesSOS responseSOS Response GeneticsTranscription factorGeneGeneticsSerine Endopeptidasesbiochemical phenomena metabolism and nutritionInterspersed Repetitive Sequencesenzymes and coenzymes (carbohydrates)Infectious DiseasesbacteriaRepressor lexACorepressorDNA DamageTrends in Microbiology

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