Transcriptional determinism and stochasticity contribute to the complexity of autism-associated SHANK family genes
Lu X, Ni P, Suarez-Meade P, Ma Y, Forrest E, Wang G, Wang Y, Quiñones-Hinojosa A, Gerstein M, Jiang Y. Transcriptional determinism and stochasticity contribute to the complexity of autism-associated SHANK family genes. Cell Reports 2024, 43: 114376. PMID: 38900637, PMCID: PMC11328446, DOI: 10.1016/j.celrep.2024.114376.Peer-Reviewed Original ResearchSHANK family genesFamily genesLong-read sequencingCDNA captureTranscript structureDeleterious variantsGenomic studiesAbundant mRNAsTranscriptional dysregulationStochastic transcriptionStudies of neuropsychiatric disordersCausative genesTranscriptional profilesTranscriptional determinantsTranscriptomePostmortem brain tissueAutism spectrum disorderShank3 transcriptsTranscriptionGenesGenomeSHANK3Neuropsychiatric disordersSpectrum disorderAutism modelNovel protein-truncating variants of a chromatin-modifying gene MSL2 in syndromic neurodevelopmental disorders
Lu X, Ng K, Pinto e Vairo F, Collins J, Cohn R, Riley K, Agre K, Gavrilova R, Klee E, Rosenfeld J, Jiang Y. Novel protein-truncating variants of a chromatin-modifying gene MSL2 in syndromic neurodevelopmental disorders. European Journal Of Human Genetics 2024, 32: 879-883. PMID: 38702431, PMCID: PMC11219747, DOI: 10.1038/s41431-024-01576-0.Peer-Reviewed Original ResearchProtein-truncating variantsSyndromic neurodevelopmental disorderGenomic studiesChromatin-modifying enzymesAcetylation of histone H4Neurodevelopmental disordersLysine 34Histone 2BMono-ubiquitinationLysine 16Epigenetic machineryGenomic evaluationMSL2Exome sequencingHistone H4Epigenetic regulationModifying enzymesEpigenetic genesFunctional importanceGenesChromatinLysineDevelopmental disordersDysmorphic faceVariants