2018
Genomic landscapes of Chinese sporadic autism spectrum disorders revealed by whole-genome sequencing
Wu J, Yu P, Jin X, Xu X, Li J, Li Z, Wang M, Wang T, Wu X, Jiang Y, Cai W, Mei J, Min Q, Xu Q, Zhou B, Guo H, Wang P, Zhou W, Hu Z, Li Y, Cai T, Wang Y, Xia K, Jiang YH, Sun ZS. Genomic landscapes of Chinese sporadic autism spectrum disorders revealed by whole-genome sequencing. Journal Of Genetics And Genomics 2018, 45: 527-538. PMID: 30392784, DOI: 10.1016/j.jgg.2018.09.002.Peer-Reviewed Original ResearchMeSH Keywords3' Untranslated RegionsAdolescentAdultAsian PeopleAutism Spectrum DisorderCell Cycle ProteinsChildChild, PreschoolChinaDNA Copy Number VariationsDNA-Binding ProteinsFemaleGenetic Predisposition to DiseaseHumansMaleMutationNerve Tissue ProteinsTranscription FactorsWhole Genome SequencingYoung AdultConceptsChromosomal rearrangement eventsDe novo chromosomal translocationsGenomic structural variantsNovo chromosomal translocationWhole genome sequencing datasetsFull genetic spectrumRare deleterious variantsChromosomal structure analysisHigh mutation rateSporadic autism spectrum disordersWhole-genome sequencingChromatin remodelingCentrosomal functionWhole genomeRare inherited mutationsDe novo mutationsRearrangement eventsSequencing datasetsDeleterious variantsGenomic variantsMutation rateStructural variantsGenomic landscapeNovo CNVsRisk genes
2015
De novo pathogenic variants in CHAMP1 are associated with global developmental delay, intellectual disability, and dysmorphic facial features
Tanaka AJ, Cho MT, Retterer K, Jones JR, Nowak C, Douglas J, Jiang YH, McConkie-Rosell A, Schaefer GB, Kaylor J, Rahman OA, Telegrafi A, Friedman B, Douglas G, Monaghan KG, Chung WK. De novo pathogenic variants in CHAMP1 are associated with global developmental delay, intellectual disability, and dysmorphic facial features. Molecular Case Studies 2015, 2: a000661. PMID: 27148580, PMCID: PMC4849844, DOI: 10.1101/mcs.a000661.Peer-Reviewed Original ResearchDysmorphic facial featuresZinc finger proteinGlobal developmental delayDevelopmental delayIntellectual disabilityFinger proteinSignificant global developmental delayMicrotubule attachmentChromosome alignmentCell divisionDe novo mutationsDe novo pathogenic variantsNovo pathogenic variantsCHAMP1Phosphoprotein 1De novoNovo mutationsUnrelated individualsFunction variantsPathogenic variantsBrain developmentMutationsWhole-exome sequencing in undiagnosed genetic diseases: interpreting 119 trios
Zhu X, Petrovski S, Xie P, Ruzzo EK, Lu YF, McSweeney KM, Ben-Zeev B, Nissenkorn A, Anikster Y, Oz-Levi D, Dhindsa RS, Hitomi Y, Schoch K, Spillmann RC, Heimer G, Marek-Yagel D, Tzadok M, Han Y, Worley G, Goldstein J, Jiang YH, Lancet D, Pras E, Shashi V, McHale D, Need AC, Goldstein DB. Whole-exome sequencing in undiagnosed genetic diseases: interpreting 119 trios. Genetics In Medicine 2015, 17: 774-781. PMID: 25590979, PMCID: PMC4791490, DOI: 10.1038/gim.2014.191.Peer-Reviewed Original ResearchConceptsDisease genesWhole-exome sequencingDamaging de novo mutationsNovel bioinformatics approachNovel disease genesAppropriate bioinformatics analysisNew gene-disease associationsClinical sequence dataGene-disease associationsDisease-causing genesNovel genesIntolerant genesBioinformatics approachSequence dataBioinformatics analysisDe novo mutationsGenomic interpretationPattern of genotypesSimilar phenotypeGenesGenetic diseasesDiagnostic genotypesUndiagnosed genetic diseasesNovo mutationsCandidate genotypes