2022
An ELISA-based platform for rapid identification of structure-dependent nucleic acid–protein interactions detects novel DNA triplex interactors
Economos NG, Thapar U, Balasubramanian N, Karras GI, Glazer PM. An ELISA-based platform for rapid identification of structure-dependent nucleic acid–protein interactions detects novel DNA triplex interactors. Journal Of Biological Chemistry 2022, 298: 102398. PMID: 35988651, PMCID: PMC9493393, DOI: 10.1016/j.jbc.2022.102398.Peer-Reviewed Original ResearchConceptsNucleic acid structuresNucleic acid-protein interactionsNucleotide excision repairSingle-strand annealing repairDouble-strand break intermediatesUnusual nucleic acid structuresNovel interactorNucleic acid interactionsHigh-throughput platformCellular processesFactor localizationAcid structureExcision repairRelevant lociHuman cellsGene editingAcid interactionsInteractorsTherapeutic gene editingNucleic acidsDNA triplexesRapid identificationComparative approachGenomeTriplexes
2021
The NIH Somatic Cell Genome Editing program
Saha K, Sontheimer EJ, Brooks PJ, Dwinell MR, Gersbach CA, Liu DR, Murray SA, Tsai SQ, Wilson RC, Anderson DG, Asokan A, Banfield JF, Bankiewicz KS, Bao G, Bulte JWM, Bursac N, Campbell JM, Carlson DF, Chaikof EL, Chen ZY, Cheng RH, Clark KJ, Curiel DT, Dahlman JE, Deverman BE, Dickinson ME, Doudna JA, Ekker SC, Emborg ME, Feng G, Freedman BS, Gamm DM, Gao G, Ghiran IC, Glazer PM, Gong S, Heaney JD, Hennebold JD, Hinson JT, Khvorova A, Kiani S, Lagor WR, Lam KS, Leong KW, Levine JE, Lewis JA, Lutz CM, Ly DH, Maragh S, McCray PB, McDevitt TC, Mirochnitchenko O, Morizane R, Murthy N, Prather RS, Ronald JA, Roy S, Roy S, Sabbisetti V, Saltzman WM, Santangelo PJ, Segal DJ, Shimoyama M, Skala MC, Tarantal AF, Tilton JC, Truskey GA, Vandsburger M, Watts JK, Wells KD, Wolfe SA, Xu Q, Xue W, Yi G, Zhou J. The NIH Somatic Cell Genome Editing program. Nature 2021, 592: 195-204. PMID: 33828315, PMCID: PMC8026397, DOI: 10.1038/s41586-021-03191-1.Peer-Reviewed Original ResearchConceptsDownstream functional consequencesGenome modificationHuman genomeGenome editingGenome editorsSomatic cellsHuman cellsFunctional consequencesBiomedical research communityGenomeLarge animalsBiological systemsCellsHuman healthHuman biological systemsEditingVivoAnimal modelsNew therapiesNew opportunitiesWide rangeConsortium
2015
Nanoparticles that deliver triplex-forming peptide nucleic acid molecules correct F508del CFTR in airway epithelium
McNeer NA, Anandalingam K, Fields RJ, Caputo C, Kopic S, Gupta A, Quijano E, Polikoff L, Kong Y, Bahal R, Geibel JP, Glazer PM, Saltzman WM, Egan ME. Nanoparticles that deliver triplex-forming peptide nucleic acid molecules correct F508del CFTR in airway epithelium. Nature Communications 2015, 6: 6952. PMID: 25914116, PMCID: PMC4480796, DOI: 10.1038/ncomms7952.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCell LineChloridesCystic FibrosisCystic Fibrosis Transmembrane Conductance RegulatorDNA-Binding ProteinsGenetic TherapyHigh-Throughput Nucleotide SequencingHumansLactic AcidMice, Inbred C57BLNanoparticlesPeptide Nucleic AcidsPolyglycolic AcidPolylactic Acid-Polyglycolic Acid CopolymerPolymersRespiratory MucosaConceptsFacile genome engineeringVivo gene deliveryBiodegradable polymer nanoparticlesTransient gene expressionNanoparticle systemsGene deliveryPolymer nanoparticlesGene correctionGenome engineeringNanoparticlesOff-target effectsPeptide nucleic acidLethal genetic disorderNucleic acidsDonor DNATarget effectsIntranasal deliveryDeliveryCystic fibrosisEngineeringOligonucleotideChloride effluxHuman cellsAirway epitheliumLung tissue
1999
The Tyr-265-to-Cys mutator mutant of DNA polymerase β induces a mutator phenotype in mouse LN12 cells
Clairmont C, Narayanan L, Sun K, Glazer P, Sweasy J. The Tyr-265-to-Cys mutator mutant of DNA polymerase β induces a mutator phenotype in mouse LN12 cells. Proceedings Of The National Academy Of Sciences Of The United States Of America 1999, 96: 9580-9585. PMID: 10449735, PMCID: PMC22251, DOI: 10.1073/pnas.96.17.9580.Peer-Reviewed Original ResearchConceptsMutator mutantsDNA polymerase betaTyr-265Mutator phenotypePolymerase betaWild-type DNA polymerase betaWild-type DNA polymeraseWild-type proteinBase excision repairRat DNA polymerase betaSpontaneous mutation frequencyDNA polymerase βDNA polymerase IMammalian cellsMutator polymeraseComplementation systemBeta mutantsExcision repairPolymerase IMutantsMutator activityGenetic instabilityHuman cellsPolymerase βEscherichia coli