2024
Resolving the 22q11.2 deletion using CTLR-Seq reveals chromosomal rearrangement mechanisms and individual variance in breakpoints
Zhou B, Purmann C, Guo H, Shin G, Huang Y, Pattni R, Meng Q, Greer S, Roychowdhury T, Wood R, Ho M, Dohna H, Abyzov A, Hallmayer J, Wong W, Ji H, Urban A. Resolving the 22q11.2 deletion using CTLR-Seq reveals chromosomal rearrangement mechanisms and individual variance in breakpoints. Proceedings Of The National Academy Of Sciences Of The United States Of America 2024, 121: e2322834121. PMID: 39042694, PMCID: PMC11295037, DOI: 10.1073/pnas.2322834121.Peer-Reviewed Original ResearchMeSH KeywordsChromosome BreakpointsChromosome DeletionChromosomes, Human, Pair 22CRISPR-Cas SystemsDiGeorge SyndromeGene RearrangementGenome, HumanHumansSequence Analysis, DNAConceptsLong-read sequencingPulse-field gel electrophoresisBase-pair resolutionDNA methylation patternsCell-type specific analysisCell type-specificChromosomal interactionsSequence assemblySegmental duplicationsGenome sequenceGenomic rearrangementsGenomic regionsChromosomal breakpointsHuman genomeGenomic recombinationMethylation patternsSequence analysisHaplotype-specificDeletion haplotypesGel electrophoresisGenomeAmplification-freeBreakpoint locationsMicrodeletion disorderType-specific
2016
Elevated variant density around SV breakpoints in germline lineage lends support to error-prone replication hypothesis
Dhokarh D, Abyzov A. Elevated variant density around SV breakpoints in germline lineage lends support to error-prone replication hypothesis. Genome Research 2016, 26: 874-881. PMID: 27216746, PMCID: PMC4937565, DOI: 10.1101/gr.205484.116.Peer-Reviewed Original ResearchConceptsSNPs/indelsComplex genomic rearrangementsHundreds of lociComplex human traitsAllele frequency spectrumReplication-based mechanismsBreakpoints of deletionsGermline lineageParental genomesSV breakpointsGenomic rearrangementsGenome ProjectMutational mechanismsDeletion eventsGenomic disordersHeterozygous SNPsStructural variantsVariant densityHuman traitsIndelsNumber variantsFold changeGermline deletionCNV formationDeletion
2015
Analysis of deletion breakpoints from 1,092 humans reveals details of mutation mechanisms
Abyzov A, Li S, Kim DR, Mohiyuddin M, Stütz AM, Parrish NF, Mu XJ, Clark W, Chen K, Hurles M, Korbel JO, Lam HY, Lee C, Gerstein MB. Analysis of deletion breakpoints from 1,092 humans reveals details of mutation mechanisms. Nature Communications 2015, 6: 7256. PMID: 26028266, PMCID: PMC4451611, DOI: 10.1038/ncomms8256.Peer-Reviewed Original ResearchMeSH KeywordsChromatinChromosome BreakpointsDNADNA ReplicationGene DeletionGenome, HumanHomologous RecombinationHumansMutationNucleotidesSequence DeletionConceptsNon-allelic homologous recombinationTemplate-switching eventsGenomic structural variantsDeletion breakpointsHi-C interactionsNon-homologous mechanismsRelaxed selectionGenomic averageHistone marksOpen chromatinGenomic sitesGermline cellsDNA replicationCell divisionDNA methylationHomologous recombinationGenome ProjectStructural variantsBasepair resolutionNearby SNPsMutation mechanismMicroinsertionsBreakpointsChromatinIndels