2018
Subcellular Organization: A Critical Feature of Bacterial Cell Replication
Surovtsev IV, Jacobs-Wagner C. Subcellular Organization: A Critical Feature of Bacterial Cell Replication. Cell 2018, 172: 1271-1293. PMID: 29522747, PMCID: PMC5870143, DOI: 10.1016/j.cell.2018.01.014.Peer-Reviewed Original ResearchConceptsSelf-replicating entitiesCellular lifeStructured genomesDynamic spatial patternsChallenge cellsIntracellular organellesCellular replicationCytoskeletal filamentsBacterial cellsUnique biological propertiesComplex internal organizationSpatial organizationSmall formsCell replicationActive transportLiving systemsBacteriaReplicationGenomeBiological propertiesCellsSpatial patternsOrganellesPowerful meansHallmark
2014
A Constant Size Extension Drives Bacterial Cell Size Homeostasis
Campos M, Surovtsev IV, Kato S, Paintdakhi A, Beltran B, Ebmeier SE, Jacobs-Wagner C. A Constant Size Extension Drives Bacterial Cell Size Homeostasis. Cell 2014, 159: 1433-1446. PMID: 25480302, PMCID: PMC4258233, DOI: 10.1016/j.cell.2014.11.022.Peer-Reviewed Original ResearchConceptsCell size homeostasisCell size controlSize homeostasisSingle-cell microscopyCell cycle controlCaulobacter crescentusAsymmetric divisionHomeostasis mechanismsBacteria Escherichia coliCell cycleEscherichia coliDifferent growth ratesCell growthCell lengthSize controlCell sizeHomeostasisBacteriaSize thresholdGrowth rateDivisionDirect experimental evidenceCrescentusSize paradigmColiEvidence for a DNA-relay mechanism in ParABS-mediated chromosome segregation
Lim HC, Surovtsev IV, Beltran BG, Huang F, Bewersdorf J, Jacobs-Wagner C. Evidence for a DNA-relay mechanism in ParABS-mediated chromosome segregation. ELife 2014, 3: e02758. PMID: 24859756, PMCID: PMC4067530, DOI: 10.7554/elife.02758.Peer-Reviewed Original ResearchConceptsChromosome segregationPartition complexParA-like proteinBacterial chromosome segregationDNA-binding activityParABS systemCytoplasmic cargoCaulobacter crescentusDNA regionsBiochemical approachesIntracellular transportTranslocation forceCellular parametersChromosomesTransient tethersCrescentusParABSMajor roleSegregationComplexesMechanismProteinTranslocationConservationBacteria
2010
Spatial organization of the flow of genetic information in bacteria
Montero Llopis P, Jackson AF, Sliusarenko O, Surovtsev I, Heinritz J, Emonet T, Jacobs-Wagner C. Spatial organization of the flow of genetic information in bacteria. Nature 2010, 466: 77-81. PMID: 20562858, PMCID: PMC2896451, DOI: 10.1038/nature09152.Peer-Reviewed Original ResearchMeSH KeywordsBacterial ProteinsCaulobacter crescentusChaperoninsChromosomes, BacterialDiffusionDNA, BacterialEndoribonucleasesEscherichia coliGene Expression Regulation, BacterialIn Situ Hybridization, FluorescenceLac OperonProtein BiosynthesisRibosomesRNA StabilityRNA TransportRNA, BacterialRNA, MessengerTranscription, GeneticConceptsSites of transcriptionC. crescentusCaulobacter crescentusEukaryotic cellsCellular physiologyMRNA decayMature mRNAMRNA processesRNase EMRNA substratesMRNA localizationGenetic informationGene expressionBacterial cellsEscherichia coliQuantitative fluorescenceCrescentusSitu hybridizationSpatial organizationMRNABacteriaLimited dispersionCellsTranscriptionTranslation