Featured Publications
Enhanced nucleotide chemistry and toehold nanotechnology reveals lncRNA spreading on chromatin
Machyna M, Kiefer L, Simon MD. Enhanced nucleotide chemistry and toehold nanotechnology reveals lncRNA spreading on chromatin. Nature Structural & Molecular Biology 2020, 27: 297-304. PMID: 32157249, DOI: 10.1038/s41594-020-0390-z.Peer-Reviewed Original ResearchConceptsHybridization capture approachGenome-wide changesLong non-coding RNAsUnfolded protein responseNon-coding RNAsStrand exchange reactionLncRNA localizationIndividual RNAsRNA captureUncharacterized changesX chromosomeProtein responseHeat shockChromatinLncRNAsRNACapture approachBinding sitesNucleic acidsNucleotide chemistryRoX2AutosomesChromosomesRelocalizationSpeciesHigh-resolution Xist binding maps reveal two-step spreading during X-chromosome inactivation
Simon MD, Pinter SF, Fang R, Sarma K, Rutenberg-Schoenberg M, Bowman SK, Kesner BA, Maier VK, Kingston RE, Lee JT. High-resolution Xist binding maps reveal two-step spreading during X-chromosome inactivation. Nature 2013, 504: 465-469. PMID: 24162848, PMCID: PMC3904790, DOI: 10.1038/nature12719.Peer-Reviewed Original Research
2024
Disulfide Tethering to Map Small Molecule Binding Sites Transcriptome-wide
Moon M, Vock I, Streit A, Connor L, Senkina J, Ellman J, Simon M. Disulfide Tethering to Map Small Molecule Binding Sites Transcriptome-wide. ACS Chemical Biology 2024, 19: 2081-2086. PMID: 39192734, DOI: 10.1021/acschembio.4c00538.Peer-Reviewed Original ResearchCytochrome c oxidase 1Binding sitesRNA-small molecule interactionsPotential binding sitesTranscriptome-wide screeningSmall molecule disulfideSpinal muscular atrophyCellular RNARNA sitesTarget RNAMetabolic labelingSmall molecule bindingRNADisulfide analoguesLead moleculesMolecule bindingTranscriptomeFDA-approved drugsStructural probesMolecule interactionsCovalent attachmentDisulfide tetherThermodynamic propertiesTreat spinal muscular atrophyDisulfide