Human mutation
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Dyskerin (encoded by the DKC1 locus) is the pseudouridine synthase responsible for the modification of noncoding RNA. Dyskerin is also an obligate member of the telomerase enzyme, and participates in the biogenesis of telomerase. Genetic lesions at the DKC1 locus are associated with X-linked dyskeratosis congenita (X-DC) and the Hoyeraal-Hreidarsson Syndrome (HHS). ⋯ X-DC(T) cells and WT(T) cells also exhibited similar tolerances to ionizing radiation and endoplasmic reticulum stress. Despite the loss in rRNA pseudouridine modification, functional perturbations from these changes are secondary to the telomere maintenance defects of X-DC. Our data show that telomere dysfunction is the primary and unifying etiology of X-DC.
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Comparative Study
A post-hoc comparison of the utility of sanger sequencing and exome sequencing for the diagnosis of heterogeneous diseases.
The advent of massive parallel sequencing is rapidly changing the strategies employed for the genetic diagnosis and research of rare diseases that involve a large number of genes. So far it is not clear whether these approaches perform significantly better than conventional single gene testing as requested by clinicians. The current yield of this traditional diagnostic approach depends on a complex of factors that include gene-specific phenotype traits, and the relative frequency of the involvement of specific genes. ⋯ We find that exome sequencing has a much higher diagnostic yield than Sanger sequencing for deafness, blindness, mitochondrial disease, and movement disorders. For microsatellite-stable colorectal cancer, this was low under both strategies. Even if all genes that could have been ordered by physicians had been tested, the larger number of genes captured by the exome would still have led to a clearly superior diagnostic yield at a fraction of the cost.