Binding profiles for 961 Drosophila and C. elegans transcription factors reveal tissue-specific regulatory relationships.
Kudron M, Gevirtzman L, Victorsen A, Lear B, Gao J, Xu J, Samanta S, Frink E, Tran-Pearson A, Huynh C, Vafeados D, Hammonds A, Fisher W, Wall M, Wesseling G, Hernandez V, Lin Z, Kasparian M, White K, Allada R, Gerstein M, Hillier L, Celniker S, Reinke V, Waterston R. Binding profiles for 961 Drosophila and C. elegans transcription factors reveal tissue-specific regulatory relationships. Genome Research 2024, 34: 2319-2334. PMID: 39438113, DOI: 10.1101/gr.279037.124.Peer-Reviewed Original ResearchHigh-occupancy targetC. elegans transcription factorsSingle cell RNA-seq dataRegulatory relationshipsTranscription factor (TFChromatin immunoprecipitation sequencing dataTF-target relationshipsChIP-seq dataConsensus sequence motifRNA-seq dataDrosophila melanogaster</i>Promote target gene expressionTarget gene expressionChIP-seqSequence motifsSequence dataRegulatory networksEvents in vivoStock CenterModel organismsTranscription factorsTF functionGene expressionBinding sitesCell typesUsing a comprehensive atlas and predictive models to reveal the complexity and evolution of brain-active regulatory elements
Pratt H, Andrews G, Shedd N, Phalke N, Li T, Pampari A, Jensen M, Wen C, Consortium P, Gandal M, Geschwind D, Gerstein M, Moore J, Kundaje A, Colubri A, Weng Z. Using a comprehensive atlas and predictive models to reveal the complexity and evolution of brain-active regulatory elements. Science Advances 2024, 10: eadj4452. PMID: 38781344, PMCID: PMC11114231, DOI: 10.1126/sciadv.adj4452.Peer-Reviewed Original ResearchConceptsEpigenetic dataCell-type-specific gene regulationCis-regulatory elementsComprehensive atlasGenetic variants associated with psychiatric disordersLineage-specific transcription factorsBrain cell typesMammalian elementsPsychENCODE ConsortiumNoncoding regionsEvolutionary historyGene regulationRegulatory elementsSequence mutationsTranscription factorsSequence syntaxRegulatory informationPrimate-specific sequencesBinding sitesHuman traitsCell typesFunctional implicationsPsychiatric disordersSequenceFetal brain development