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https://dora.health.qld.gov.au/qldresearchjspui/handle/1/2625| Title: | The diagnostic utility of genome sequencing in a pediatric cohort with suspected mitochondrial disease | Authors: | Coman, D. Ellaway, C. Alexander, I. E. Adams, L. Kava, M. Robinson, J. Sue, C. M. Balasubramaniam, S. Christodoulou, J. Riley, L. G. Cowley, M. J. Gayevskiy, V. Minoche, A. E. Puttick, C. Thorburn, D. R. Rius, R. Compton, A. G. Menezes, M. J. Bhattacharya, K. |
Issue Date: | 2020 | Source: | 22, (7), 2020, p. 1254-1261 | Pages: | 1254-1261 | Journal: | Genetics in Medicine | Abstract: | Purpose: The utility of genome sequencing (GS) in the diagnosis of suspected pediatric mitochondrial disease (MD) was investigated. Methods: An Australian cohort of 40 pediatric patients with clinical features suggestive of MD were classified using the modified Nijmegen mitochondrial disease severity scoring into definite (17), probable (17), and possible (6) MD groups. Trio GS was performed using DNA extracted from patient and parent blood. Data were analyzed for single-nucleotide variants, indels, mitochondrial DNA variants, and structural variants. Results: A definitive MD gene molecular diagnosis was made in 15 cases and a likely MD molecular diagnosis in a further five cases. Causative mitochondrial DNA (mtDNA) variants were identified in four of these cases. Three potential novel MD genes were identified. In seven cases, causative variants were identified in known disease genes with no previous evidence of causing a primary MD. Diagnostic rates were higher in patients classified as having definite MD. Conclusion: GS efficiently identifies variants in MD genes of both nuclear and mitochondrial origin. A likely molecular diagnosis was identified in 67% of cases and a definitive molecular diagnosis achieved in 55% of cases. This study highlights the value of GS for a phenotypically and genetically heterogeneous disorder like MD.L20047001752020-04-29 | DOI: | 10.1038/s41436-020-0793-6 | Resources: | https://www.embase.com/search/results?subaction=viewrecord&id=L2004700175&from=exporthttp://dx.doi.org/10.1038/s41436-020-0793-6 | | Keywords: | NBAS gene;oncogene H ras;pediatric patient;PET100 gene;phenotype;PNPT1 gene;RARS2 gene;respiratory chain;RRM2B gene;SERAC1 gene;SKIV2L gene;whole genome sequencing;SLC39A8 gene;mitochondrial DNAACAD9 gene;article;ARX gene;autosomal recessive inheritance;BCS1L gene;clinical article;clinical feature;CLPB gene;cohort analysis;controlled study;copy number variation;COX10 gene;diagnostic value;disease severity assessment;disorders of mitochondrial functions;DNA extraction;ECHS1 gene;EPG5 gene;G6PC gene;gene;genetic variability;genomics;GFM1 gene;heteroplasmy;heterozygote;homozygote;human;incidence;MECR gene;mitochondrial gene;molecular diagnosis | Type: | Article |
| Appears in Sites: | Children's Health Queensland Publications |
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