2020
Somatic mutation distributions in cancer genomes vary with three-dimensional chromatin structure
Akdemir K, Le V, Kim J, Killcoyne S, King D, Lin Y, Tian Y, Inoue A, Amin S, Robinson F, Nimmakayalu M, Herrera R, Lynn E, Chan K, Seth S, Klimczak L, Gerstung M, Gordenin D, O’Brien J, Li L, Deribe Y, Verhaak R, Campbell P, Fitzgerald R, Morrison A, Dixon J, Andrew Futreal P. Somatic mutation distributions in cancer genomes vary with three-dimensional chromatin structure. Nature Genetics 2020, 52: 1178-1188. PMID: 33020667, PMCID: PMC8350746, DOI: 10.1038/s41588-020-0708-0.Peer-Reviewed Original ResearchConceptsCancer genomesMutational processesGenome organizationThree-dimensional genome organizationThree-dimensional chromatin structureSomatic mutationsSpatial genome organizationMutation rate variationDifferent human cancer typesDifferent mutational processesWhole-genome datasetsActive mutational processesSpecific mutational processesChromatin structureHuman cancer typesMutation distributionInactive domainsDevelopment of cancerDriver genesGenomeMutational loadActive domainHuman cancersMutationsNovel therapeutic strategies
2001
Characterization of a DNA-Cleaving deoxyribozyme
Carmi N, Breaker R. Characterization of a DNA-Cleaving deoxyribozyme. Bioorganic & Medicinal Chemistry 2001, 9: 2589-2600. PMID: 11557347, DOI: 10.1016/s0968-0896(01)00035-9.Peer-Reviewed Original ResearchMeSH KeywordsBase SequenceCatalysisCopperDeoxyadenosinesDeoxyribonucleotidesDNADNA, CatalyticDNA, Single-StrandedElectrophoresis, Gel, Two-DimensionalModels, MolecularMolecular StructureNucleic Acid ConformationOxidation-ReductionSequence Analysis, DNAStructure-Activity RelationshipSubstrate Specificity
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