2016
Carcinogenesis: UV Radiation
Brash D, Heffernan T, Nghiem P, Cho R. Carcinogenesis: UV Radiation. 2016, 887-902. DOI: 10.1007/978-3-662-47398-6_56.ChaptersLarge-scale sequencing projectsUV-damaged cellsSequencing projectsDNA repairTumor suppressorSomatic point mutationsSurveillance mechanismClonal growthLow-frequency mutationsDNA damageBase changesCell behaviorPoint mutationsMutationsSomatic mutationsFree radical clearanceHuman skin cancerFrequency mutationsSpecific somatic mutationsUltraviolet radiationPTCH mutationsGenetic factorsNOTCH1 mutationsCellsVast number
2015
Carcinogenesis: UV Radiation
Brash D, Heffernan T, Nghiem P, Cho R. Carcinogenesis: UV Radiation. 2015, 1-17. DOI: 10.1007/978-3-642-27814-3_56-2.ChaptersLarge-scale sequencing projectsUV-damaged cellsSequencing projectsDNA repairTumor suppressorSomatic point mutationsSurveillance mechanismClonal growthLow-frequency mutationsDNA damageBase changesCell behaviorPoint mutationsMutationsSomatic mutationsFree radical clearanceHuman skin cancerFrequency mutationsSpecific somatic mutationsUltraviolet radiationPTCH mutationsGenetic factorsNOTCH1 mutationsCellsVast number
2001
The DNA Damage Signal for Mdm2 Regulation, Trp53 Induction, and Sunburn Cell Formation In Vivo Originates from Actively Transcribed Genes
Brash D, Wikonkal N, Remenyik E, van der Horst G, Friedberg E, Cheo D, van Steeg H, Westerman A, van Kranen H. The DNA Damage Signal for Mdm2 Regulation, Trp53 Induction, and Sunburn Cell Formation In Vivo Originates from Actively Transcribed Genes. Journal Of Investigative Dermatology 2001, 117: 1234-1240. PMID: 11710938, DOI: 10.1046/j.0022-202x.2001.01554.x.Peer-Reviewed Original ResearchConceptsDNA photoproductsDNA damage signalsUnrepaired DNA lesionsCell formationSpecific genome regionsTumor suppressor proteinCsb-/- miceUltraviolet-induced apoptosisNucleotide excision repair genesApoptosis signal pathwayExcision repair genesActive genesMutant cellsGenome regionsDNA repairSuppressor proteinDamage signalsMDM2 regulationWild typeDNA lesionsPrevents cellsHomozygous inactivationGenesRepair genesDNA signals
1999
Induction of cyclin-dependent kinase inhibitors and G1 prolongation by the chemopreventive agent N-acetylcysteine
Liu M, Wikonkal N, Brash D. Induction of cyclin-dependent kinase inhibitors and G1 prolongation by the chemopreventive agent N-acetylcysteine. Carcinogenesis 1999, 20: 1869-1872. PMID: 10469636, DOI: 10.1093/carcin/20.9.1869.Peer-Reviewed Original ResearchMeSH KeywordsAcetylcysteineAnimalsAnticarcinogenic AgentsAntioxidantsCell CycleCell LineChromansCyclin-Dependent Kinase Inhibitor p16Cyclin-Dependent Kinase Inhibitor p21CyclinsFibroblastsFree Radical ScavengersG1 PhaseGene Expression RegulationGene Expression Regulation, NeoplasticGenes, p16GlutathioneHumansKeratinocytesMiceModels, BiologicalNeoplasm ProteinsPapillomaSkin NeoplasmsTumor Cells, CulturedTumor Suppressor Protein p53ConceptsCyclin-dependent kinase inhibitorNovel molecular basisCell cycle transitionKinase inhibitorsDNA replicationDNA repairCellular differentiationMolecular basisG1 prolongationGene expressionAntioxidant N-acetylcysteineN-acetylcysteineIntracellular glutathione levelsArrestAgent N-acetylcysteineInductionInhibitorsGlutathione levelsCyclinChemopreventive agentsChemopreventive activityDifferentiationUsual mechanismP53Replication
1995
Intragenic Domains of Strand-specific Repair inEscherichia coli
Kunala S, Brash D. Intragenic Domains of Strand-specific Repair inEscherichia coli. Journal Of Molecular Biology 1995, 246: 264-272. PMID: 7869378, DOI: 10.1006/jmbi.1994.0082.Peer-Reviewed Original ResearchConceptsTranscription-repair coupling factorTranscription start siteStart siteEscherichia coli genesUV-induced cyclobutane pyrimidine dimersStrand-specific repairMfd mutationExcision repair mechanismChromatin domainsIntragenic domainsGenomic organizationMfd geneColi geneCyclobutane pyrimidine dimersLacZ transcriptionDNA repairInEscherichia coliDownstream domainIndividual nucleotidesRepair mechanismsGenesTranscriptionRepair systemDNA strandsInduced levels
1990
Defective DNA Repair in Humans: Clinical and Molecular Studies of Xeroderma Pigmentosum
Kraemer K, Seetharam S, Seidman M, Bredberg A, Brash D, Waters H, Protić-Sablijć M, Peck G, DiGiovanna J, Moshell A, Tarone R, Jones G, Parshad R, Sanford K. Defective DNA Repair in Humans: Clinical and Molecular Studies of Xeroderma Pigmentosum. Basic Life Sciences 1990, 53: 95-104. PMID: 2282051, DOI: 10.1007/978-1-4613-0637-5_7.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus Statements
1982
Role of gene expression in mechanisms of toxicity/carcinogenicity relative to environmental cancer, heart, and lung disease
Brash D. Role of gene expression in mechanisms of toxicity/carcinogenicity relative to environmental cancer, heart, and lung disease. Journal Of Environmental Science And Health Part A 1982, 17: 589-598. DOI: 10.1080/10934528209375061.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus Statements