Featured Publications
Mechanical forces drive a reorientation cascade leading to biofilm self-patterning
Nijjer J, Li C, Zhang Q, Lu H, Zhang S, Yan J. Mechanical forces drive a reorientation cascade leading to biofilm self-patterning. Nature Communications 2021, 12: 6632. PMID: 34789754, PMCID: PMC8599862, DOI: 10.1038/s41467-021-26869-6.Peer-Reviewed Original ResearchMeSH KeywordsBacterial AdhesionBiofilmsBiomechanical PhenomenaModels, BiologicalMutationVibrio choleraeConceptsVibrio cholerae biofilmsSurface-attached aggregatesBacterial communitiesCell-surface interactionsDevelopmental processesBiofilm developmentBacterial cellsCell reorientationExtracellular matrixNonadherent mutantsDifferential growthBacterial biofilmsMechanical forcesBiofilmsBacterial growthDifferential orderingCellsGrowthMutantsLarge collection
2022
Bacterial Surface Detachment during Nebulization with Contaminated Reusable Home Nebulizers
Harris JC, Collins MS, Huang PH, Schramm CM, Nero T, Yan J, Murray TS. Bacterial Surface Detachment during Nebulization with Contaminated Reusable Home Nebulizers. Microbiology Spectrum 2022, 10: e02535-21. PMID: 35107362, PMCID: PMC8809330, DOI: 10.1128/spectrum.02535-21.Peer-Reviewed Original ResearchMeSH KeywordsAerosolsBacteriaBacterial AdhesionCystic FibrosisEquipment ContaminationHumansNebulizers and VaporizersConceptsAlbuterol nebulizationNebulized therapyHome nebulizersCystic fibrosisChronic respiratory diseasesAerosolized medicationsLung infectionCF patientsRespiratory diseasePathogenic bacteriaPatientsNext Generation ImpactorClinical isolatesMedicationsLungPari LCTherapyAnonymous patientsClinical bacteriaNebulizationNebulizerAerosolizationPathogenic microbesDetachmentSubset of bacteria
2018
Bacterial Biofilm Material Properties Enable Removal and Transfer by Capillary Peeling
Yan J, Moreau A, Khodaparast S, Perazzo A, Feng J, Fei C, Mao S, Mukherjee S, Košmrlj A, Wingreen NS, Bassler BL, Stone HA. Bacterial Biofilm Material Properties Enable Removal and Transfer by Capillary Peeling. Advanced Materials 2018, 30: e1804153. PMID: 30368924, PMCID: PMC8865467, DOI: 10.1002/adma.201804153.Peer-Reviewed Original ResearchConceptsBiofilm removal strategiesMaterial propertiesBiofouling problemsInterfacial propertiesSurface foulingRheological characterizationIndustrial operationsMechanical protectionSurface analysisBiofilm-forming bacterial speciesMultiple surfacesBiofilm-dwelling cellsVibrio cholerae biofilmsSurface-attached communitiesSurfaceRemoval strategiesPropertiesFouling
2016
Vibrio cholerae biofilm growth program and architecture revealed by single-cell live imaging
Yan J, Sharo AG, Stone HA, Wingreen NS, Bassler BL. Vibrio cholerae biofilm growth program and architecture revealed by single-cell live imaging. Proceedings Of The National Academy Of Sciences Of The United States Of America 2016, 113: e5337-e5343. PMID: 27555592, PMCID: PMC5018804, DOI: 10.1073/pnas.1611494113.Peer-Reviewed Original ResearchMeSH KeywordsBacterial AdhesionBacterial ProteinsBiofilmsCell ProliferationHumansSingle-Cell AnalysisVibrio choleraeConceptsV. cholerae biofilmsSingle-cell live imagingSurface-associated bacterial communitiesVibrio cholerae biofilmsSingle-cell technologiesSingle founder cellRod-shaped bacteriaFounder cellsSingle geneBacterial communitiesLive imagingBiofilm architectureBiofilm componentsBiofilm structureCell heterogeneityIndividual cellsMatrix labelingMature biofilmsArt microscopy techniquesCompetition analysisBiofilmsSingle-cell resolution imagingGenesGrowth programCells