Search results for "Lytic cycle"

showing 10 items of 75 documents

Sensitive Assays by Nucleophile-Induced Rearrangement of Photoactivated Diarylethenes.

2018

Upon light-induced isomerization, diarylethenes (DAEs) equipped with reactive aldehyde moieties rearrange selectively in the presence of amines, accompanied by decoloration. In a comprehensive study, the probe structure was optimized with regard to its inherent reactivity in the nucleophile-triggered rearrangement reaction. Detailed structure−reactivity relationships could be derived, in particular with regard to the type of integrated (het)aryl moieties as well as the location of the formyl residue, and the probes’ intrinsic reactivity with primary and secondary amines was optimized. Utilizing an ancillary base, the initially formed rearrangement product can engage in a subsequent catalyti…

010402 general chemistry01 natural sciencesBiochemistryAldehydeCatalysischemistry.chemical_compoundPhotochromismColloid and Surface ChemistryNucleophile541 Physikalische ChemieReactivity (chemistry)Rearrangement reactionsensingchemistry.chemical_classification010405 organic chemistryArylGeneral ChemistryphotochromismCombinatorial chemistry0104 chemical sciences540 Chemie und zugeordnete WissenschaftenaminechemistryCatalytic cycleddc:540diaryletheneddc:541547 Organische ChemieIsomerizationddc:547Journal of the American Chemical Society
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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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THE DISTRIBUTION OF MUTATIONAL FITNESS EFFECTS OF PHAGE φX174 ON DIFFERENT HOSTS

2012

Adaptation depends greatly on the distribution of mutation fitness effects (DMFE), but the phenotypic expression of mutations is often environment dependent. The environments faced by multihost pathogens are mostly governed by their hosts and therefore measuring the DMFE on multiple hosts can inform on the likelihood of short-term establishment and longer term adaptation of emerging pathogens. We explored this by measuring the growth rate of 36 mutants of the lytic bacteriophage φX174 on two host backgrounds, Escherichia coli (EcC) and Salmonella typhimurium (StGal). The DMFE showed higher mean and variance on EcC than on StGal. Most mutations were either deleterious or neutral on both host…

0106 biological sciencesGenetics0303 health sciencesMutationbiologyFitness landscapeGenetic Fitnessmedicine.disease_causebiology.organism_classification010603 evolutionary biology01 natural sciencesBacteriophage03 medical and health sciencesLytic cycleGenotypeGeneticsmedicineAdaptationGeneral Agricultural and Biological SciencesGeneEcology Evolution Behavior and Systematics030304 developmental biologyEvolution
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Distinct lytic vacuolar compartments are embedded inside the protein storage vacuole of dry and germinating Arabidopsis thaliana seeds.

2011

International audience; Plant cell vacuoles are diverse and dynamic structures. In particular, during seed germination, the protein storage vacuoles are rapidly replaced by a central lytic vacuole enabling rapid elongation of embryo cells. In this study, we investigate the dynamic remodeling of vacuolar compartments during Arabidopsis seed germination using immunocytochemistry with antibodies against tonoplast intrinsic protein (TIP) isoforms as well as proteins involved in nutrient mobilization and vacuolar acidification. Our results confirm the existence of a lytic compartment embedded in the protein storage vacuole of dry seeds, decorated by γ-TIP, the vacuolar proton pumping pyrophospha…

0106 biological sciencesPhysiologyProtein storage vacuoleProton-pumping pyrophosphataseArabidopsisPlant ScienceVacuoleUNIQUEMESH: Protein Isoforms01 natural sciencesPYROPHOSPHATASEArabidopsisProtein IsoformsMESH: ArabidopsisH+-ATPASETONOPLAST INTRINSIC PROTEINPLANT-CELLSCation Transport ProteinsIN-VIVOPlant Proteinschemistry.chemical_classification0303 health sciencesMESH: Plant ProteinsGeneral MedicineCell biologyProtein TransportVacuolar acidificationLytic cycleSeedsPREVACUOLAR COMPARTMENTMESH: DesiccationVacuolar Proton-Translocating ATPasesMESH: Protein TransportMESH: Vacuolar Proton-Translocating ATPasesGerminationMESH: Arabidopsis ProteinsMESH: GerminationBiologyAquaporinsMESH: Vacuoles03 medical and health sciencesMESH: AquaporinsMESH: Cation Transport ProteinsStorage protein[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyLytic vacuoleDesiccation030304 developmental biologySeedArabidopsis ProteinsCell Biologybiology.organism_classificationTRANSPORTchemistryMESH: SeedsVacuolesVacuoleMEMBRANEMOBILIZATION010606 plant biology & botany
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New insights into the mechanism of action of pyrazolo[1,2-a]benzo[1,2,3,4]tetrazin-3-one derivatives endowed with anticancer potential

2018

Due to the scarce biological profile, the pyrazolo[1,2-a]benzo[1,2,3,4]tetrazine-3-one scaffold (PBT) has been recently explored as promising core for potential anticancer candidates. Several suitably decorated derivatives (PBTs) exhibited antiproliferative activity in the low-micromolar range associated with apoptosis induction and cell cycle arrest on S phase. Herein, we selected the most active derivatives and submitted them to further biological explorations to deepen the mechanism of action. At first, a DNA targeting is approached by means of flow Linear Dichroism experiments so as to evaluate how small planar molecules might interact with DNA, including the interference with the catal…

0301 basic medicineCell cycle checkpointPyrazolo[1TetrazolesBiochemistrychemistry.chemical_compound0302 clinical medicineSalmonAntiproliferative; DNA-interacting; Intercalation; Linear dichroism; Molecular docking; Pyrazolo[12-a]benzo[1234]tetrazin-3-one; Topoisomerase II; Biochemistry; Molecular MedicineDrug DiscoveryDNA-interactingBase PairingADMEbiologyIntercalating AgentsMolecular Docking Simulation030220 oncology & carcinogenesisMolecular Medicinemedicine.symptomtopoisomerase II3StereochemistryIn silico2Antineoplastic Agentslinear dichroism03 medical and health sciencesantiproliferativeintercalationmedicineAnimalsHumansDNA Cleavage2-a]benzo[1Pharmacology4]tetrazin-3-oneBinding SitesTopoisomeraseOrganic ChemistryDNAmolecular dockingSettore CHIM/08 - Chimica FarmaceuticaChemical spaceProtein Structure TertiaryDNA Topoisomerases Type II030104 developmental biologyMechanism of actionchemistryCatalytic cyclebiology.proteinpyrazolo[12-a]benzo[1234]tetrazin-3-oneDNAChemical Biology & Drug Design
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Comparison of CRISPR and Marker-Based Methods for the Engineering of Phage T7

2020

This article belongs to the Section Bacterial Viruses.

0301 basic medicineGenetic Markersviruses030106 microbiologyMutantlcsh:QR1-502t7Computational biologyGenome ViralBiologyGenomeArticlelcsh:MicrobiologyBacteriophage03 medical and health sciencesbacteriophageVirologyBacteriophage T7CRISPRClustered Regularly Interspaced Short Palindromic RepeatsGenomescrisprBacteriophageGeneSelection (genetic algorithm)Gene EditingQHT7Viral Tail Proteinsbiology.organism_classificationBacteriòfags3. Good healthQRtail fibres030104 developmental biologyInfectious DiseasesLytic cycleCRISPRMutationTail fibresCRISPR-Cas SystemsHomologous recombinationGenèticaViruses
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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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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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Directed evolution of a Mycobacteriophage

2019

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

0301 basic medicineMicrobiology (medical)phage therapyPhage therapyPhage therapyMycobacteriophagemedicine.medical_treatment030106 microbiologymycobacteriophagesMycobacterium smegmatismedicine.disease_causeBiochemistryMicrobiologyArticle03 medical and health sciencesAntibiotic resistancemedicinePharmacology (medical)General Pharmacology Toxicology and Pharmaceuticsdirected evolutionGeneticsMycobacteriophagesbiologyMycobacterium smegmatislcsh:RM1-950Pathogenic bacteriaMycobacteriophagesbiology.organism_classificationDirected evolution3. Good health030104 developmental biologyInfectious Diseaseslcsh:Therapeutics. PharmacologyLytic cycle<i>Mycobacterium smegmatis</i>Directed evolution
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Bacteriophage-Based Bacterial Wilt Biocontrol for an Environmentally Sustainable Agriculture

2017

Bacterial wilt diseases caused by Ralstonia solanacearum, R. pseudosolanacearum and R. syzygii subsp. indonesiensis (former R. solanacearum species complex) are among the most important plant diseases worldwide, severely affecting a high number of crops and ornamentals. Difficulties of bacterial wilt control by non-biological methods are related to effectiveness, bacterial resistance and environmental impact. Alternatively, a great many biocontrol strategies have been carried out, with the advantage of being environmentally friendly. Advances in bacterial wilt biocontrol include an increasing interest in bacteriophage-based treatments as a promising re-emerging strategy. Bacteriophages agai…

0301 basic medicineMini Review030106 microbiologyBiological pest controlPlant Sciencelcsh:Plant cultureBacteriophage03 medical and health sciencesAntibiotic resistanceLysogenic cycleSustainable agriculturelcsh:SB1-1110lytic phageRalstonia solanacearumbiologytreatmentbusiness.industryBacterial wiltfood and beverageslysogenic phagebiology.organism_classificationBiotechnologyLytic cyclebusinessbiological agentmanagementFrontiers in Plant Science
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