The Complete Genome Sequences, Unique Mutational Spectra, and Developmental Potency of Adult Neurons Revealed by Cloning
Hazen JL, Faust GG, Rodriguez AR, Ferguson WC, Shumilina S, Clark RA, Boland MJ, Martin G, Chubukov P, Tsunemoto RK, Torkamani A, Kupriyanov S, Hall IM, Baldwin KK. The Complete Genome Sequences, Unique Mutational Spectra, and Developmental Potency of Adult Neurons Revealed by Cloning. Neuron 2016, 89: 1223-1236. PMID: 26948891, PMCID: PMC4795965, DOI: 10.1016/j.neuron.2016.02.004.Peer-Reviewed Original ResearchMeSH KeywordsAge FactorsAnimalsAnimals, NewbornCadherin Related ProteinsCadherinsCell DivisionCloning, MolecularDNA Transposable ElementsEmbryo, MammalianFemaleHumansKi-67 AntigenMiceMice, TransgenicMicrosatellite RepeatsMutationNerve Tissue ProteinsNeuronsNuclear Transfer TechniquesOlfactory BulbOocytesSequence Analysis, DNAConceptsCell type diversificationComplete genome sequenceMobile element insertionsNuclear transfer methodWhole-genome sequencingNeuronal genomeGene-disrupting mutationsNeuronal mutationsGenome sequenceUnique mutational spectrumDevelopmental potencyComprehensive mutation detectionElement insertionsGenomic mutationsRecurrent rearrangementsNovel mechanismUnique mutationsMutationsSomatic mutationsGene biasGenomeAdult neuronsMutational spectrumFertile miceMutation detectionBreakpoint profiling of 64 cancer genomes reveals numerous complex rearrangements spawned by homology-independent mechanisms
Malhotra A, Lindberg M, Faust GG, Leibowitz ML, Clark RA, Layer RM, Quinlan AR, Hall IM. Breakpoint profiling of 64 cancer genomes reveals numerous complex rearrangements spawned by homology-independent mechanisms. Genome Research 2013, 23: 762-776. PMID: 23410887, PMCID: PMC3638133, DOI: 10.1101/gr.143677.112.Peer-Reviewed Original ResearchConceptsComplex genomic rearrangementsSingle mutational eventCancer genomesMutational eventsBreakpoint clusterDNA double-strand breaksHomology-independent mechanismsComplex rearrangementsDouble-strand breaksLarge-scale rearrangementsGenome architectureGenome rearrangementsNonhomologous repairGenomic rearrangementsChromothripsis eventsSelective advantageMore chromosomesTumor genomesGenomeGlioblastoma samplesTemplated insertionsState profilingPunctuated changeBreakpoint sequencesAllele frequenciesRecurrent DNA copy number variation in the laboratory mouse
Egan CM, Sridhar S, Wigler M, Hall IM. Recurrent DNA copy number variation in the laboratory mouse. Nature Genetics 2007, 39: 1384-1389. PMID: 17965714, DOI: 10.1038/ng.2007.19.Peer-Reviewed Original ResearchConceptsCopy number variationsCopy numberNumber variationsGenome-wide analysisDNA copy number variationsRecent common ancestryGenerations of inbreedingRecurrent copy number variationsHigh-resolution microarraysCommon ancestryNatural variationGenetic differencesDifferent speciesDifferent lociGenerational timeLaboratory miceNonrandom processGenomeRecurrent mutationsLociAdditional strainsInbreedingLineagesGenesDiscrete segments