2022
EPCO-13. IDENTIFYING REGULATORS OF GLIOMA CELL STATE DIVERSITY AND EVOLUTION VIA JOINT SINGLE NUCLEUS RNA AND CHROMATIN ACCESSIBILITY
Johnson K, Anderson K, Nehar-Belaid D, Varn F, Gujar A, Courtois E, Robson P, Moon H, Golebiewska A, Paek S, Niclou S, Verhaak R. EPCO-13. IDENTIFYING REGULATORS OF GLIOMA CELL STATE DIVERSITY AND EVOLUTION VIA JOINT SINGLE NUCLEUS RNA AND CHROMATIN ACCESSIBILITY. Neuro-Oncology 2022, 24: vii118-vii118. PMCID: PMC9660532, DOI: 10.1093/neuonc/noac209.448.Peer-Reviewed Original ResearchSingle-nucleus RNATranscription factorsCellular heterogeneityCell state plasticityEpigenetic gene regulationOpen chromatin stateOpen chromatin peaksWhole-genome sequencing dataDynamic epigenetic alterationsDNA methylation studiesGenome sequencing dataPatient-derived cell linesChromatin stateChromatin accessibilityEpigenetic switchChromatin changesGene regulationTranscriptional changesStem-like cellsMaster regulatorCell statesCell diversityEpigenetic alterationsEnhancer regionSequencing data
2019
Genome-wide characterization of cytosine-specific 5-hydroxymethylation in normal breast tissue
Wilkins O, Johnson K, Houseman E, King J, Marsit C, Christensen B. Genome-wide characterization of cytosine-specific 5-hydroxymethylation in normal breast tissue. Epigenetics 2019, 15: 398-418. PMID: 31842685, PMCID: PMC7153548, DOI: 10.1080/15592294.2019.1695332.Peer-Reviewed Original ResearchConceptsGenome-wide characterizationGenome-wide patternsGenome-wide mapsGene regulatory programsActive chromatinGenomic lociGene regulationTranscriptional inactivityRegulatory regionsGene regionMammalian tissuesRegulatory programsCpG lociDNA treatmentImmune cell functionCell functionLociLactate oxidationNormal breast tissueIndependent data setsPre-invasive breast cancerRecent evidenceHeterochromatinChromatinBisulfite