Search results for "Lysogeny"

showing 4 items of 4 documents

Black box of phage–bacterium interactions : exploring alternative phage infection strategies

2021

The canonical lytic–lysogenic binary has been challenged in recent years, as more evidence has emerged on alternative bacteriophage infection strategies. These infection modes are little studied, and yet they appear to be more abundant and ubiquitous in nature than previously recognized, and can play a significant role in the ecology and evolution of their bacterial hosts. In this review, we discuss the extent, causes and consequences of alternative phage lifestyles, and clarify conceptual and terminological confusion to facilitate research progress. We propose distinct definitions for the terms ‘pseudolysogeny’ and ‘productive or non-productive chronic infection’, and distinguish them from…

Phage therapyviruksetQH301-705.5medicine.medical_treatmentImmunologyReviewGenetic pathwaysinfektiotGeneral Biochemistry Genetics and Molecular BiologybakteriofagitbakteeritBacteriophagepseudolysogeny03 medical and health sciencesbacteriophagemedicineBacteriophagescarrier stateBiology (General)LysogenyReview ArticlesEcosystem030304 developmental biologyConfusion0303 health sciencesbiologyBacteria030306 microbiologyGeneral NeuroscienceCarrier statebiology.organism_classificationchronic infectionReview articlephage infectionChronic infectionEvolutionary biologyEvolutionary ecologyPersistent Infectionmikrobiologiamedicine.symptom
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Dynamics of gene regulatory networks and their dependence on network topology and quantitative parameters – the case of phage λ

2019

Background Gene regulatory networks can be modelled in various ways depending on the level of detail required and biological questions addressed. One of the earliest formalisms used for modeling is a Boolean network, although these models cannot describe most temporal aspects of a biological system. Differential equation models have also been used to model gene regulatory networks, but these frameworks tend to be too detailed for large models and many quantitative parameters might not be deducible in practice. Hybrid models bridge the gap between these two model classes – these are useful when concentration changes are important while the information about precise concentrations and binding…

Gene Expression Regulation ViralHybrid systemsComputer scienceGene regulatory networklcsh:Computer applications to medicine. Medical informaticsNetwork topologyModels BiologicalBiochemistryGene regulatory networks03 medical and health sciences0302 clinical medicineStructural BiologyLysogenic cycleStable behavioursOperonPhage λlcsh:QH301-705.5LysogenyMolecular BiologyTopology (chemistry)030304 developmental biology0303 health sciencesModel validationApplied MathematicsBacteriophage lambdaComputer Science ApplicationsBoolean networkOrder (biology)lcsh:Biology (General)030220 oncology & carcinogenesisHybrid systemMutationlcsh:R858-859.7Biological systemSoftwareResearch ArticleBMC Bioinformatics
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Phage-borne factors and host LexA regulate the lytic switch in phage GIL01.

2011

ABSTRACT The Bacillus thuringiensis temperate phage GIL01 does not integrate into the host chromosome but exists stably as an independent linear replicon within the cell. Similar to that of the lambdoid prophages, the lytic cycle of GIL01 is induced as part of the cellular SOS response to DNA damage. However, no CI-like maintenance repressor has been detected in the phage genome, suggesting that GIL01 uses a novel mechanism to maintain lysogeny. To gain insights into the GIL01 regulatory circuit, we isolated and characterized a set of 17 clear plaque ( cp ) mutants that are unable to lysogenize. Two phage-encoded proteins, gp1 and gp7, are required for stable lysogen formation. Analysis of …

Gene Expression Regulation ViralvirusesBacteriophages Transposons and PlasmidsBacillus thuringiensisBacillus PhagesBiologyMicrobiologyHost-Parasite InteractionsBacteriolysisLysogenBacterial ProteinsLysogenic cycleHost chromosomeSOS responseSOS Response GeneticsMolecular BiologyLysogenyGeneticsBinding SitesSerine Endopeptidasesbiochemical phenomena metabolism and nutritionBacillus PhageTemperatenessLytic cycleDNA ViralbacteriaVirus ActivationRepressor lexAProtein BindingJournal of bacteriology
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The effect of a temperature-sensitive prophage on the evolution of virulence in an opportunistic bacterial pathogen.

2022

https://doi.org/10.1111/mec.16638 Abstract Viruses are key actors of ecosystems and have major impacts on global biogeochemical cycles. Prophages deserve particular attention as they are ubiquitous in bacterial genomes and can enter a lytic cycle when triggered by environmental conditions. We explored how temperature affects the interactions between prophages and other biological levels by using an opportunistic pathogen, the bacterium Serratia marcescens, that harbours several prophages and that had undergone an evolution experiment under several temperature regimes. We found that the release of one of the prophages was temperature-sensitive and malleable to evolutionary changes. We furthe…

prophage inductionMARINE VIRUSESbiologiset vaikutuksetviruksetProphagesvirusLIPOPOLYSACCHARIDESEQUENCEbakteriofagitGeneticsBacteriophagesexperimental evolutionPHYSIOLOGYEcology Evolution Behavior and SystematicsEcosystem11832 Microbiology and virologySERRATIA-MARCESCENSepigeneticsVirulenceINDUCTIONopportunistic pathogenTemperatureLYSOGENYekosysteemit (ekologia)taudinaiheuttajatMUTANTSepigenetiikkalämpötilaBACTERIOPHAGERESISTANCEGenome BacterialMolecular ecologyREFERENCES
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