2014
Comparative analysis of the transcriptome across distant species
Gerstein MB, Rozowsky J, Yan KK, Wang D, Cheng C, Brown JB, Davis CA, Hillier L, Sisu C, Li JJ, Pei B, Harmanci AO, Duff MO, Djebali S, Alexander RP, Alver BH, Auerbach R, Bell K, Bickel PJ, Boeck ME, Boley NP, Booth BW, Cherbas L, Cherbas P, Di C, Dobin A, Drenkow J, Ewing B, Fang G, Fastuca M, Feingold EA, Frankish A, Gao G, Good PJ, Guigó R, Hammonds A, Harrow J, Hoskins RA, Howald C, Hu L, Huang H, Hubbard TJ, Huynh C, Jha S, Kasper D, Kato M, Kaufman TC, Kitchen RR, Ladewig E, Lagarde J, Lai E, Leng J, Lu Z, MacCoss M, May G, McWhirter R, Merrihew G, Miller DM, Mortazavi A, Murad R, Oliver B, Olson S, Park PJ, Pazin MJ, Perrimon N, Pervouchine D, Reinke V, Reymond A, Robinson G, Samsonova A, Saunders GI, Schlesinger F, Sethi A, Slack FJ, Spencer WC, Stoiber MH, Strasbourger P, Tanzer A, Thompson OA, Wan KH, Wang G, Wang H, Watkins KL, Wen J, Wen K, Xue C, Yang L, Yip K, Zaleski C, Zhang Y, Zheng H, Brenner SE, Graveley BR, Celniker SE, Gingeras TR, Waterston R. Comparative analysis of the transcriptome across distant species. Nature 2014, 512: 445-448. PMID: 25164755, PMCID: PMC4155737, DOI: 10.1038/nature13424.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCaenorhabditis elegansChromatinCluster AnalysisDrosophila melanogasterGene Expression ProfilingGene Expression Regulation, DevelopmentalHistonesHumansLarvaModels, GeneticMolecular Sequence AnnotationPromoter Regions, GeneticPupaRNA, UntranslatedSequence Analysis, RNATranscriptome
2012
Understanding transcriptional regulation by integrative analysis of transcription factor binding data
Cheng C, Alexander R, Min R, Leng J, Yip KY, Rozowsky J, Yan KK, Dong X, Djebali S, Ruan Y, Davis CA, Carninci P, Lassman T, Gingeras TR, Guigó R, Birney E, Weng Z, Snyder M, Gerstein M. Understanding transcriptional regulation by integrative analysis of transcription factor binding data. Genome Research 2012, 22: 1658-1667. PMID: 22955978, PMCID: PMC3431483, DOI: 10.1101/gr.136838.111.Peer-Reviewed Original ResearchConceptsTranscription start siteTranscriptional regulationCpG contentTranscription factor binding signalsAlternative transcription start sitesDownstream transcription start siteExpression levelsHigh CpG contentLow CpG contentChromatin featuresHistone modificationsTF bindingENCODE projectSpecific TFsTranscription factorsStart siteGene expressionIntegrative analysisDifferential expressionCell linesCoordinated mannerBinding signalsExpressionRNA extractionRegulationChromatin accessibility at the HIV LTR promoter sets a threshold for NF-κB mediated viral gene expression
Miller-Jensen K, Dey SS, Pham N, Foley JE, Arkin AP, Schaffer DV. Chromatin accessibility at the HIV LTR promoter sets a threshold for NF-κB mediated viral gene expression. Integrative Biology 2012, 4: 661-671. PMID: 22555315, PMCID: PMC3362694, DOI: 10.1039/c2ib20009k.Peer-Reviewed Original ResearchConceptsChromatin accessibilityGene expressionChromatin environmentIntegration sitesHigher-order chromatin structureDifferent genomic environmentsLTR promoterRepressive histone marksDifferent chromatin environmentsOrder chromatin structureGene expression regulationTranscription factor inputsSame transcription factorDifferential gene expressionLevels of RelASelective gene expressionViral gene expressionViral integration sitesTranscription factor activationHIV gene regulationGenomic environmentHIV LTR promoterHistone marksChromatin featuresChromatin structureModeling gene expression using chromatin features in various cellular contexts
Dong X, Greven MC, Kundaje A, Djebali S, Brown JB, Cheng C, Gingeras TR, Gerstein M, Guigó R, Birney E, Weng Z. Modeling gene expression using chromatin features in various cellular contexts. Genome Biology 2012, 13: r53. PMID: 22950368, PMCID: PMC3491397, DOI: 10.1186/gb-2012-13-9-r53.Peer-Reviewed Original ResearchConceptsChromatin featuresRNA-seqExpression levelsGene expressionPolyA RNADNase I hypersensitivity sitesGenome-wide mappingCell linesDifferent cellular contextsDifferent cellular compartmentsDifferent cell compartmentsGene expression levelsHigh-throughput techniquesHistone variantsHistone marksTranscriptional regulationHuman cell linesRNA-PETENCODE projectCellular contextCellular compartmentsCytosolic RNANuclear RNAHypersensitivity sitesRNA
2011
A statistical framework for modeling gene expression using chromatin features and application to modENCODE datasets
Cheng C, Yan KK, Yip KY, Rozowsky J, Alexander R, Shou C, Gerstein M. A statistical framework for modeling gene expression using chromatin features and application to modENCODE datasets. Genome Biology 2011, 12: r15. PMID: 21324173, PMCID: PMC3188797, DOI: 10.1186/gb-2011-12-2-r15.Peer-Reviewed Original Research
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