Featured Publications
Acetyl-methyllysine marks chromatin at active transcription start sites
Lu-Culligan W, Connor L, Xie Y, Ekundayo B, Rose B, Machyna M, Pintado-Urbanc A, Zimmer J, Vock I, Bhanu N, King M, Garcia B, Bleichert F, Simon M. Acetyl-methyllysine marks chromatin at active transcription start sites. Nature 2023, 622: 173-179. PMID: 37731000, PMCID: PMC10845139, DOI: 10.1038/s41586-023-06565-9.Peer-Reviewed Original ResearchConceptsPost-translational modificationsLysine residuesActive transcription start sitesTranscription start siteRange of speciesChromatin biologyChromatin proteinsLysine methylationActive chromatinProteins BRD2Transcriptional initiationLysine acetylationHistone H4Start siteMammalian tissuesHuman diseasesSame residuesMethylationAcetylationChromatinResiduesProteinBiological signalsHistonesBRD2
2020
Discovery of cellular substrates of human RNA-decapping enzyme DCP2 using a stapled bicyclic peptide inhibitor
Luo Y, Schofield JA, Na Z, Hann T, Simon MD, Slavoff SA. Discovery of cellular substrates of human RNA-decapping enzyme DCP2 using a stapled bicyclic peptide inhibitor. Cell Chemical Biology 2020, 28: 463-474.e7. PMID: 33357462, PMCID: PMC8052284, DOI: 10.1016/j.chembiol.2020.12.003.Peer-Reviewed Original ResearchConceptsRNA decayEnzyme DCP2P-bodiesDCP2Genetic approachesRNA substratesBicyclic peptide inhibitorsHuman RNAExpression changesCellular substratesPhage display selectionSelective chemical inhibitorsChemical inhibitorsHuman cellsGenetic ablationBicyclic peptide ligandsPeptide inhibitorCP21Display selectionPeptide ligandsHigh affinityRegulomeTranscriptionInhibitorsPowerful tool