2019
Haplotype-resolved and integrated genome analysis of the cancer cell line HepG2
Zhou B, Ho S, Greer S, Spies N, Bell J, Zhang X, Zhu X, Arthur J, Byeon S, Pattni R, Saha I, Huang Y, Song G, Perrin D, Wong W, Ji H, Abyzov A, Urban A. Haplotype-resolved and integrated genome analysis of the cancer cell line HepG2. Nucleic Acids Research 2019, 47: 3846-3861. PMID: 30864654, PMCID: PMC6486628, DOI: 10.1093/nar/gkz169.Peer-Reviewed Original ResearchConceptsGenome sequenceStructural variantsGenomic structural featuresSomatic genomic rearrangementsFunctional genomics dataAllele-specific expressionEntire chromosome armsIntegrated genome analysisCRISPR/Cas9Cell linesMain cell linesGenome structureEpigenomic characteristicsChromosome armsGenome analysisDNA methylationGenome characteristicsRetrotransposon insertionChromosomal segmentsGenomic rearrangementsGenomic dataRegulatory complexityCell line HepG2Copy numberLoss of heterozygosity
2017
Landscape and variation of novel retroduplications in 26 human populations
Zhang Y, Li S, Abyzov A, Gerstein MB. Landscape and variation of novel retroduplications in 26 human populations. PLOS Computational Biology 2017, 13: e1005567. PMID: 28662076, PMCID: PMC5510864, DOI: 10.1371/journal.pcbi.1005567.Peer-Reviewed Original ResearchConceptsParent genesSequencing dataHigh-coverage exomesLow-coverage whole-genome sequencing dataHuman populationWhole-genome sequencing dataExon-exon junctionsGenomes Phase 3Young L1 elementsPaired-end readsPotential disease associationsRetrotranspositional activityGenomic elementsNucleosome positioningPhylogenetic treeRetroduplicationExome sequencing dataReference genomeGenomic featuresInsertion eventsL1 elementsComprehensive discoveryPopulation markersSNP callingFunctional regions
2013
Analysis of variable retroduplications in human populations suggests coupling of retrotransposition to cell division
Abyzov A, Iskow R, Gokcumen O, Radke DW, Balasubramanian S, Pei B, Habegger L, Consortium T, Lee C, Gerstein M. Analysis of variable retroduplications in human populations suggests coupling of retrotransposition to cell division. Genome Research 2013, 23: 2042-2052. PMID: 24026178, PMCID: PMC3847774, DOI: 10.1101/gr.154625.113.Peer-Reviewed Original ResearchConceptsCell divisionCorrect phylogenetic treeGenomes Project ConsortiumHuman populationTranscription of mRNARetroduplicationPhylogenetic treeParent genesGenomic integrationCell cycleG1 transitionMore copiesGenesRetrotranspositionHuman subpopulationsMultiple linesRetrogenesPseudogenesTranscriptionDivisionRNAVariantsProteinMRNACopies