2020
Cell Lineage Tracing and Cellular Diversity in Humans
Abyzov A, Vaccarino FM. Cell Lineage Tracing and Cellular Diversity in Humans. Annual Review Of Genomics And Human Genetics 2020, 21: 101-116. PMID: 32413272, DOI: 10.1146/annurev-genom-083118-015241.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsLineage tracingLineage mapCell lineage mapCell lineage tracingDNA methylation statusComplex biological processesMultiple cell typesMulticellular organismsCellular diversityMitochondrial DNALineage hierarchyCell lineagesBiological processesNatural variationCell typesMethylation statusLineagesNoncancerous cellsRecent studiesFetal developmentGeneral conceptual designCellsOrganismsHumansDNA
2019
Combining copy number, methylation markers, and mutations as a panel for endometrial cancer detection via intravaginal tampon collection
Sangtani A, Wang C, Weaver A, Hoppman N, Kerr S, Abyzov A, Shridhar V, Staub J, Kocher J, Voss J, Podratz K, Wentzensen N, Kisiel J, Sherman M, Bakkum-Gamez J. Combining copy number, methylation markers, and mutations as a panel for endometrial cancer detection via intravaginal tampon collection. Gynecologic Oncology 2019, 156: 387-392. PMID: 31787246, PMCID: PMC7018609, DOI: 10.1016/j.ygyno.2019.11.028.Peer-Reviewed Original ResearchHaplotype-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
2018
Molecular characterization of colorectal adenomas with and without malignancy reveals distinguishing genome, transcriptome and methylome alterations
Druliner B, Wang P, Bae T, Baheti S, Slettedahl S, Mahoney D, Vasmatzis N, Xu H, Kim M, Bockol M, O’Brien D, Grill D, Warner N, Munoz-Gomez M, Kossick K, Johnson R, Mouchli M, Felmlee-Devine D, Washechek-Aletto J, Smyrk T, Oberg A, Wang J, Chia N, Abyzov A, Ahlquist D, Boardman L. Molecular characterization of colorectal adenomas with and without malignancy reveals distinguishing genome, transcriptome and methylome alterations. Scientific Reports 2018, 8: 3161. PMID: 29453410, PMCID: PMC5816667, DOI: 10.1038/s41598-018-21525-4.Peer-Reviewed Original ResearchMeSH KeywordsAdenomaColorectal NeoplasmsDNA MethylationGene Expression ProfilingGenomicsHumansSequence Analysis, RNAConceptsColorectal cancerManagement of polypsPolyp patientsPolyp groupMalignant polypsPrecursor lesionsColorectal adenomasResidual polypPolyp tissuesPolyp sizePolypsCancerAltered expressionMethylome alterationsPatientsWhole-genome sequencingTissueMore mutationsAlterationsExpression changesSignificant expression changesMolecular determinantsMethylation alterationsMolecular distinctionMolecular characterization