2014
Modified Poly(lactic‐co‐glycolic Acid) Nanoparticles for Enhanced Cellular Uptake and Gene Editing in the Lung
Fields RJ, Quijano E, McNeer NA, Caputo C, Bahal R, Anandalingam K, Egan ME, Glazer PM, Saltzman WM. Modified Poly(lactic‐co‐glycolic Acid) Nanoparticles for Enhanced Cellular Uptake and Gene Editing in the Lung. Advanced Healthcare Materials 2014, 4: 361-366. PMID: 25156908, PMCID: PMC4339402, DOI: 10.1002/adhm.201400355.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsDNADNA-Binding ProteinsDrug CarriersEpithelial CellsFemaleGene Transfer TechniquesGreen Fluorescent ProteinsLactic AcidLungMacrophages, AlveolarMice, Inbred BALB CMice, TransgenicMolecular Sequence DataNanoparticlesPolyglycolic AcidPolylactic Acid-Polyglycolic Acid CopolymerSurface Properties
1999
A Novel Sulfonylurea Receptor Family Member Expressed in the Embryonic Drosophila Dorsal Vessel and Tracheal System*
Nasonkin I, Alikasifoglu A, Ambrose C, Cahill P, Cheng M, Sarniak A, Egan M, Thomas P. A Novel Sulfonylurea Receptor Family Member Expressed in the Embryonic Drosophila Dorsal Vessel and Tracheal System*. Journal Of Biological Chemistry 1999, 274: 29420-29425. PMID: 10506204, DOI: 10.1074/jbc.274.41.29420.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsATP-Binding Cassette TransportersCloning, MolecularDrosophilaDrosophila ProteinsGene Expression Regulation, DevelopmentalGlyburideHumansIn Situ HybridizationMolecular Sequence DataOocytesPatch-Clamp TechniquesPhylogenyPotassium ChannelsPotassium Channels, Inwardly RectifyingReceptors, DrugRNA, MessengerSulfonylurea ReceptorsXenopus laevisConceptsDrosophila embryogenesisPotassium channel activityTracheal systemNovel Drosophila geneDrosophila dorsal vesselDorsal vesselABC transporter familyChannel activityReceptor family membersDrosophila genesGene duplicationPotassium channelsDrosophila systemTransporter familyGenetic approachesATP-sensitive potassium channel activityGenesFunctional studiesSulfonylurea receptorKir6.2 subunitEmbryogenesisATP-sensitive potassium channelsSURxSubunitsDistinctive sequence
1998
Chloride channel and chloride conductance regulator domains of CFTR, the cystic fibrosis transmembrane conductance regulator
Schwiebert E, Morales M, Devidas S, Egan M, Guggino W. Chloride channel and chloride conductance regulator domains of CFTR, the cystic fibrosis transmembrane conductance regulator. Proceedings Of The National Academy Of Sciences Of The United States Of America 1998, 95: 2674-2679. PMID: 9482946, PMCID: PMC19458, DOI: 10.1073/pnas.95.5.2674.Peer-Reviewed Original ResearchMeSH Keywords4,4'-Diisothiocyanostilbene-2,2'-Disulfonic AcidAnimalsBase SequenceBronchiCells, CulturedChloride ChannelsChloridesCyclic AMPCystic FibrosisCystic Fibrosis Transmembrane Conductance RegulatorDNA, ComplementaryEpithelial CellsFemaleHumansMembrane PotentialsModels, MolecularMolecular Sequence DataMutagenesis, Site-DirectedOligodeoxyribonucleotidesOocytesPatch-Clamp TechniquesPoint MutationProtein ConformationRecombinant ProteinsSequence DeletionTranscription, GeneticTransfectionXenopus laevisConceptsCl- channel functionConductance regulatorDomains of CFTRCystic fibrosis transmembrane conductance regulatorChloride channelsFibrosis transmembrane conductance regulatorFirst transmembrane domainC-terminal truncationsIndividual amino acid substitutionsTransmembrane conductance regulatorCl- channel poreCl- channelsAmino acid substitutionsRegulator domainTransmembrane domainTwo-electrode voltage-clamp recordingsRegulatory domainMutant CFTRAcid substitutionsRegulator functionHuman airway epithelial cellsCFTRXenopus oocytesRegulatorRelease of ATP