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Article Abstract
Many mRNAs carrying mutations that are predicted to encode a truncated protein are subject to a mechanism known as nonsense-mediated mRNA decay (NMD), which results in reduced levels of mutant transcript. Tuberous sclerosis (TSC), an autosomal dominant neurocutaneous disorder with mutations in either of two genes, TSC1 or TSC2, requires comprehensive screening of both genes for molecular diagnosis. Virtually all TSC1 mutations are predicted to truncate the protein product. Coding and newly identified 3' untranslated region polymorphisms in TSC1 were used to develop a transcript imbalance assay to investigate TSC1 transcript levels in patients. This approach allowed the correct identification of six out of seven TSC1 patients tested blind from a panel of TSC1 and TSC2 patients, with no false positives. The extent of NMD in TSC1 was found to correlate with each individual mutation regardless of intra-familial variation in clinical features and with no strong evidence for positional bias. NMD in TSC1 was more pronounced in cultured cells than in RNA prepared directly from peripheral lymphocytes (in which novel splicing of exon 5 was observed). The advent of a dense SNP map of transcribed regions of the genome may allow a similar transcript imbalance assay in the assessment of candidate genes for diseases whose causes are still unknown.
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