Professor David Thorburn is co-Group Leader of Brain & Mitochondrial Research at the Murdoch Children's Research Institute and an Honorary Professorial Fellow in the Department of Paediatrics at the University of Melbourne. He is also a National Health & Medical Research Council Principal Research Fellow and leads the Victorian Clinical Genetics Services Mitochondrial Diagnostic Laboratory.
His group is primarily involved in researching the genetic basis of mitochondrial energy generation disorders. They were among the first to use Next Generation Sequencing technologies to identify mutations in known and novel disease genes. This subsequently expanded into multi-omic approaches incorporating transcriptomics and proteomics to identify candidate genes and provide functional validation of genomic variants. His team has identified pathogenic mutations in >600 patients in >100 genes, including 13 mitochondrial DNA genes and 30 novel nuclear disease genes.
As co-lead of the Australian Genomics Mitochondrial Flagship (2017-20) and Lead of the Medical Research Future Fund-supported MitoMDT project (2021-25), he has developed national networks seeking to incorporate genomic and multi-omic testing into Australian healthcare. He is a member of the executive of RDNow, whose vision is to enable all children seen on the Royal Children’s Hospital campus with a rare disease to receive an accurate diagnosis, care, and available therapy within one year of coming to medical attention. As a Director of the Mito Foundation, he was the academic/research Lead for the Foundation’s campaign to legalise mitochondrial donation, culminating in Maeve’s law being legislated in 2022.
Professor David Thorburn is co-Group Leader of Brain & Mitochondrial Research at the Murdoch Children's Research Institute and an Honorary Professorial Fellow in the Department of Paediatrics at the University of Melbourne. He is also a National...
Professor David Thorburn is co-Group Leader of Brain & Mitochondrial Research at the Murdoch Children's Research Institute and an Honorary Professorial Fellow in the Department of Paediatrics at the University of Melbourne. He is also a National Health & Medical Research Council Principal Research Fellow and leads the Victorian Clinical Genetics Services Mitochondrial Diagnostic Laboratory.
His group is primarily involved in researching the genetic basis of mitochondrial energy generation disorders. They were among the first to use Next Generation Sequencing technologies to identify mutations in known and novel disease genes. This subsequently expanded into multi-omic approaches incorporating transcriptomics and proteomics to identify candidate genes and provide functional validation of genomic variants. His team has identified pathogenic mutations in >600 patients in >100 genes, including 13 mitochondrial DNA genes and 30 novel nuclear disease genes.
As co-lead of the Australian Genomics Mitochondrial Flagship (2017-20) and Lead of the Medical Research Future Fund-supported MitoMDT project (2021-25), he has developed national networks seeking to incorporate genomic and multi-omic testing into Australian healthcare. He is a member of the executive of RDNow, whose vision is to enable all children seen on the Royal Children’s Hospital campus with a rare disease to receive an accurate diagnosis, care, and available therapy within one year of coming to medical attention. As a Director of the Mito Foundation, he was the academic/research Lead for the Foundation’s campaign to legalise mitochondrial donation, culminating in Maeve’s law being legislated in 2022.
Top Publications
Calvo, SE, Tucker, EJ, Compton, AG, Kirby, DM, Crawford, G, Burtt, NP, Rivas, M, Guiducci, C, Bruno, DL, Goldberger, OA, et al.
High-throughput, pooled sequencing identifies mutations in NUBPL and FOXRED1 in human complex I deficiency..
Nat Genet
42(10)
:
851 -858
2010
view publication
Tuppen, HAL, Hogan, VE, He, L, Blakely, EL, Worgan, L, Al-Dosary, M, Saretzki, G, Alston, CL, Morris, AA, Clarke, M, et al.
The p.M292T NDUFS2 mutation causes complex I-deficient Leigh syndrome in multiple families..
Brain
133(10)
:
2952 -2963
2010
view publication
Riley, LG, Cooper, S, Hickey, P, Rudinger-Thirion, J, McKenzie, M, Compton, A, Lim, SC, Thorburn, D, Ryan, MT, Giegé, R, et al.
Mutation of the mitochondrial tyrosyl-tRNA synthetase gene, YARS2, causes myopathy, lactic acidosis, and sideroblastic anemia--MLASA syndrome..
Am J Hum Genet
87(1)
:
52 -59
2010
view publication
Tucker, EJ, Compton, AG, Thorburn, DR.
Recent advances in the genetics of mitochondrial encephalopathies..
Curr Neurol Neurosci Rep
10(4)
:
277 -285
2010
view publication
Tucker, E, Compton, A, McKenzie, M, Calvo, S, Pagliarini, D, Mootha, V, Ryan, M, Thorburn, D.
74 A splice-site mutation in C8orf38 causes impaired Complex I assembly due to a defect in translation or integration of ND1 into an early assembly intermediate.
Mitochondrion
10(2)
:
221
2010
view publication