2020
Fatal Perinatal Mitochondrial Cardiac Failure Caused by Recurrent De Novo Duplications in the ATAD3 Locus
Frazier A, Compton A, Kishita Y, Hock D, Welch A, Amarasekera S, Rius R, Formosa L, Imai-Okazaki A, Francis D, Wang M, Lake N, Tregoning S, Jabbari J, Lucattini A, Nitta K, Ohtake A, Murayama K, Amor D, McGillivray G, Wong F, van der Knaap M, Vermeulen R, Wiltshire E, Fletcher J, Lewis B, Baynam G, Ellaway C, Balasubramaniam S, Bhattacharya K, Freckmann M, Arbuckle S, Rodriguez M, Taft R, Sadedin S, Cowley M, Minoche A, Calvo S, Mootha V, Ryan M, Okazaki Y, Stroud D, Simons C, Christodoulou J, Thorburn D. Fatal Perinatal Mitochondrial Cardiac Failure Caused by Recurrent De Novo Duplications in the ATAD3 Locus. Med 2020, 2: 49-73.e10. PMID: 33575671, PMCID: PMC7875323, DOI: 10.1016/j.medj.2020.06.004.Peer-Reviewed Original ResearchMeSH KeywordsATPases Associated with Diverse Cellular ActivitiesAustraliaCardiomyopathiesChildHeart FailureHumansMembrane ProteinsMitochondrial DiseasesMitochondrial ProteinsUnited StatesConceptsMitochondrial diseasePediatric mitochondrial diseaseMitochondrial oxidative phosphorylation complexes IOxidative phosphorylation complexes IDominant-negative mannerStudy of RNADNA sequencing techniquesSegmental duplicationsGenomic strategiesQuantitative proteomicsWhole genomeGenomic investigationsGene locusRepetitive regionsSequencing techniquesGenomeComplex IRecessive deletionsLociWhole exomeDuplicationMonogenic diseasesDe novo duplicationExome sequencingPontocerebellar hypoplasia
2017
ATAD3 gene cluster deletions cause cerebellar dysfunction associated with altered mitochondrial DNA and cholesterol metabolism
Desai R, Frazier A, Durigon R, Patel H, Jones A, Rosa I, Lake N, Compton A, Mountford H, Tucker E, Mitchell A, Jackson D, Sesay A, Di Re M, van den Heuvel L, Burke D, Francis D, Lunke S, McGillivray G, Mandelstam S, Mochel F, Keren B, Jardel C, Turner A, Andrews P, Smeitink J, Spelbrink J, Heales S, Kohda M, Ohtake A, Murayama K, Okazaki Y, Lombès A, Holt I, Thorburn D, Spinazzola A. ATAD3 gene cluster deletions cause cerebellar dysfunction associated with altered mitochondrial DNA and cholesterol metabolism. Brain 2017, 140: 1595-1610. PMID: 28549128, PMCID: PMC5445257, DOI: 10.1093/brain/awx094.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine TriphosphatasesAdultATPases Associated with Diverse Cellular ActivitiesCerebellumConsanguinityDevelopmental DisabilitiesDNA, MitochondrialFemaleHumansInfantInfant, NewbornMaleMembrane ProteinsMitochondrial DiseasesMitochondrial ProteinsNervous System MalformationsConceptsATAD3A geneHigh-throughput sequencing technologyIntegration of mitochondriaMitochondrial DNA organizationCholesterol homeostasisCellular cholesterol homeostasisSingle nucleotide polymorphism arrayMitochondrial DNA abnormalitiesNiemann-Pick type C diseaseNucleotide polymorphism arrayWhole-exome sequencing dataDNA organizationExome sequencing dataMitochondrial DNACausal genesCholesterol metabolismGenomic analysisGenomic rearrangementsSequencing technologiesHigh homologySequencing dataType C diseaseDrug-induced perturbationsGene cluster deletionsGenes