Search results for "(Escherichia coli)"

showing 10 items of 689 documents

A Gene-Specific Requirement for FACT during Transcription Is Related to the Chromatin Organization of the Transcribed Region

2006

The FACT complex stimulates transcription elongation on nucleosomal templates. In vivo experiments also involve FACT in the reassembly of nucleosomes traversed by RNA polymerase II. Since several features of chromatin organization vary throughout the genome, we wondered whether FACT is equally required for all genes. We show in this study that the in vivo depletion of Spt16, one of the subunits of Saccharomyces cerevisiae FACT, strongly affects transcription of three genes, GAL1, PHO5, and Kluyveromyces lactis LAC4, which exhibit positioned nucleosomes at their transcribed regions. In contrast, showing a random nucleosome structure, YAT1 and Escherichia coli lacZ are only mildly influenced …

GeneticsChromatin ImmunoprecipitationSaccharomyces cerevisiae ProteinsTranscription GeneticbiologyHigh Mobility Group ProteinsRNA polymerase IIPromoterArticlesSaccharomyces cerevisiaeCell BiologyFACT complexChromatinChromatin remodelingChromatinDNA-Binding ProteinsHistone methylationProtein FACTEscherichia colibiology.proteinTranscriptional Elongation FactorsTranscription factor II DMolecular BiologyRNA polymerase II holoenzymePlasmidsMolecular and Cellular Biology
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Why are the genomes of endosymbiotic bacteria so stable?

2003

The comparative analysis of three strains of the endosymbiotic bacterium Buchnera aphidicola has revealed high genome stability associated with an almost complete absence of chromosomal rearrangements and horizontal gene transfer events during the past 150 million years. The loss of genes involved in DNA uptake and recombination in the initial stages of endosymbiosis probably underlies this stability. Gene loss, which was extensive during the initial steps of Buchnera evolution, has continued in the different Buchnera lineages since their divergence.

GeneticsGene Transfer HorizontalbiologyEndosymbiosisbiochemical phenomena metabolism and nutritionbiology.organism_classificationGenomechemistry.chemical_compoundTransformation GeneticBuchnerachemistryEvolutionary biologyGene DuplicationHorizontal gene transferEscherichia coliGeneticsBuchneraGeneConserved SequenceGenome BacterialRecombinationDNAEndosymbiotic bacteriaTrends in Genetics
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Homemade Site Directed Mutagenesis of Whole Plasmids

2009

Site directed mutagenesis of whole plasmids is a simple way to create slightly different variations of an original plasmid. With this method the cloned target gene can be altered by substitution, deletion or insertion of a few bases directly into a plasmid. It works by simply amplifying the whole plasmid, in a non PCR-based thermocycling reaction. During the reaction mutagenic primers, carrying the desired mutation, are integrated into the newly synthesized plasmid. In this video tutorial we demonstrate an easy and cost effective way to introduce base substitutions into a plasmid. The protocol works with standard reagents and is independent from commercial kits, which often are very expensi…

GeneticsGeneral Immunology and MicrobiologyGeneral Chemical EngineeringGeneral NeuroscienceMutagenesis (molecular biology technique)Biologymedicine.disease_causeGeneral Biochemistry Genetics and Molecular BiologyPfu polymeraseTransformation (genetics)PlasmidMutation (genetic algorithm)Escherichia coliMutagenesis Site-DirectedmedicineTransformation BacterialTarget geneBasic ProtocolsSite-directed mutagenesisEscherichia coliPlasmidsJournal of Visualized Experiments
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Genome size reduction through multiple events of gene disintegration in Buchnera APS

2001

The evolution of the endosymbiont Buchnera during its adaptation to intracellular life involved a massive reduction in its genome. By comparing the orthologous genes of Buchnera, Escherichia coli and Vibrio cholerae, we show that the minimal genome size of Buchnera arose from multiple events of gene disintegration dispersed over the whole genome. The elimination of the genes was a continuous process that began with gene inactivation and progressed until the DNA corresponding to the pseudogenes were completely deleted.

GeneticsGenome evolutionPseudogeneBacterial genome sizebiochemical phenomena metabolism and nutritionBiologybiology.organism_classificationBiological EvolutionGenomeBuchneraEscherichia coliGeneticsMinimal genomeBuchneraVibrio choleraeGeneGenome sizeGene DeletionGenome BacterialPseudogenesTrends in Genetics
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Epistasis between new mutations and genetic background and a test of genetic canalization.

2001

The importance for fitness of epistatic interactions among mutations is poorly known, yet epistasis can exert important effects on the dynamics of evolving populations. We showed previously that epistatic interactions are common between pairs of random insertion mutations in the bacterium Escherichia coli. In this paper, we examine interactions between these mutations and other mutations by transducing each of twelve insertion mutations into two genetic backgrounds, one ancestral and the other having evolved in, and adapted to, a defined laboratory environment for 10,000 generations. To assess the effect of the mutation on fitness, we allowed each mutant to compete against its unmutated cou…

GeneticsMutationGenotypeMutantEpistasis and functional genomicsEpistasis GeneticBiologymedicine.disease_causePositive correlationEvolution MolecularMutagenesis InsertionalEvolutionary biologyTransduction GeneticMutationmedicineGeneticsEscherichia coliEpistasisGeneral Agricultural and Biological SciencesEscherichia coliEcology Evolution Behavior and SystematicsEvolution; international journal of organic evolution
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GroEL buffers against deleterious mutations

2002

GroEL, a heat-shock protein that acts as a molecular chaperone1, is overproduced in endosymbiotic but not in free-living bacteria2,3,4, presumably to assist in the folding of conformationally damaged proteins. Here we show that the overproduction of GroEL in Escherichia coli masks the effects of harmful mutations that have accumulated during a simulated process of vertical transmission. This molecular mechanism, which may be an adaptation to the bacterium's intracellular lifestyle, is able to rescue lineages from a progressive fitness decline resulting from the fixation of deleterious mutations under strong genetic drift5,6.

GeneticsMutationMultidisciplinarybiologybiology.organism_classificationmedicine.disease_causeEnterobacteriaceaeGroELHeat shock proteinmedicineOverproductionEscherichia coliBacteriaIntracellularNature
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Molecular cloning ofTrichophyton mentagrophytes DNA sequences with promoter activity inEscherichia coli

1992

A promoter probe library from the dermatophyte fungusTrichophyton mentagrophytes has been constructed in the pVB32 plasmid vector. Using this library, a set ofT. mentagrophytes DNA sequences with promoter activity inEscherichia coli has been cloned. The size and the resistance phenotype conferred by these DNA fragments varied. Southern blot analysis confirmed that they were derived fromT. mentagrophytes genomic DNA.

GeneticsPhysiologyNucleic acid sequenceGeneral MedicineMolecular cloningBiologymedicine.disease_causeApplied Microbiology and BiotechnologyMolecular biologyDNA sequencinggenomic DNAchemistry.chemical_compoundPlasmidchemistrymedicineEscherichia coliDNABiotechnologySouthern blotWorld Journal of Microbiology and Biotechnology
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A rapid method for the screening of plasmids in transformed yeast strains

1988

A method for the rapid screening of plasmids in yeast cells has been developed. The method is an adaptation of the currently used alkaline lysis methods forEscherichia coli plasmids. Following the conditions described, several dozen ofSaccharomyces cerevisiae-transformed clones can be analyzed for their plasmid content in less than 2 h. The plasmids obtained by this procedure are suitable for restriction analysis or forE. coli andS. cerevisiae transformation.

GeneticsSaccharomyces cerevisiaeGeneral MedicineBiologymedicine.disease_causebiology.organism_classificationApplied Microbiology and BiotechnologyMicrobiologyEnterobacteriaceaeYeastTransformation (genetics)PlasmidRestriction mapmedicineAlkaline lysisEscherichia coliCurrent Microbiology
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Predominance of the fimH30 Subclone Among Multidrug-Resistant Escherichia coli Strains Belonging to Sequence Type 131 in Italy

2013

GeneticsSettore MED/07 - Microbiologia E Microbiologia ClinicaST131 E. coli fimH30 sub-clone in ItalyBiologymedicine.disease_causeAnti-Bacterial AgentsMicrobiologyMultiple drug resistanceInfectious DiseasesType (biology)Drug Resistance Multiple BacterialCorrespondenceEscherichia colimedicineHumansImmunology and AllergyEscherichia coliEscherichia coli InfectionsFluoroquinolonesSequence (medicine)Journal of Infectious Diseases
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Cloning and characterization of the histidine biosynthetic gene cluster of Streptomyces coelicolor A3(2).

1990

Abstract Biochemical and genetic data indicate that in Streptomyces coelicolor A3(2) the majority of the genes involved in the biosynthesis of histidine are clustered in a small region of the chromosome [Carere et al., Mol. Gen. Genet. 123 (1973) 219–224; Russi et al., Mol. Gen. Genet. 123 (1973) 225–232]. To investigate the structural organization and the regulation of these genes, we have constructed genomic libraries from S. coelicolor A3(2) in pUC vectors. Recombinant clones were isolated by complementation of an Escherichia coli hisBd auxotroph. A recombinant plasmid containing a 3.4-kb fragment of genomic DNA was further characterized. When cloned in the plasmid vector, pIJ699, this f…

GeneticsbiologyBase SequenceOperonStreptomyces coelicolorGenes FungalGenetic Complementation TestMolecular Sequence DataRestriction MappingNucleic acid sequencehisBGeneral MedicineMolecular cloningbiology.organism_classificationMolecular biologyStreptomycesgenomic DNAGene clusterGeneticsEscherichia coliGenomic libraryHistidineAmino Acid SequenceCloning MolecularPlasmidsGene
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