2022
Transcriptome-wide mapping reveals a diverse dihydrouridine landscape including mRNA
Draycott AS, Schaening-Burgos C, Rojas-Duran MF, Wilson L, Schärfen L, Neugebauer KM, Nachtergaele S, Gilbert WV. Transcriptome-wide mapping reveals a diverse dihydrouridine landscape including mRNA. PLOS Biology 2022, 20: e3001622. PMID: 35609439, PMCID: PMC9129914, DOI: 10.1371/journal.pbio.3001622.Peer-Reviewed Original ResearchConceptsTranscriptome-wide mappingSmall nucleolar RNAsFunctional RNA structuresSingle-nucleotide resolutionStem-loop regionEukaryotic ribosomesNucleolar RNAsPre-mRNARNA structureRNA targetsDihydrouridine synthaseHuman diseasesMRNARNANovel classFunctional componentsSplicingTRNARibosomesYeastDependent changesLandscapeOrganismsDihydrouridineSequencing
2012
First Exon Length Controls Active Chromatin Signatures and Transcription
Bieberstein NI, Oesterreich F, Straube K, Neugebauer KM. First Exon Length Controls Active Chromatin Signatures and Transcription. Cell Reports 2012, 2: 62-68. PMID: 22840397, DOI: 10.1016/j.celrep.2012.05.019.Peer-Reviewed Original ResearchConceptsGeneral transcription factorsTranscription start siteFirst exonShort first exonExon-intron organizationGenome-wide analysisHistone modifications H3K4me3Active chromatin signatureRNA polymerase IIRole of splicingTransgenic cell linesChIP-seq dataLong first exonChromatin signaturesGene architectureExon-intron boundariesHigh expression levelsAntisense transcriptionTranscriptional outputPolymerase IIH3K4me3 levelsGene activityTSS usageTranscription factorsExon length