We delineated the longitudinal auditory features of the highly prevalent GJB2 p.V37I mutation on a general population basis and confirmed the utility of newborn genetic screening in identifying infants with late-onset or progressive hearing impairment undetectable by newborn hearing screening.Genet Med 19 1, 6-12.
This study is financially supported by the National Science Council of Taiwan (grants NSC 96-2628-B-002-063-MY3, NSC 98-2314-B-002-088-MY3 and 98-FTN13). No competing interests are declared.
BackgroundTuberous sclerosis complex (TSC) is an autosomal dominant disease characterized by the development of multiple hamartomas in many internal organs. Mutations in either one of 2 genes, TSC1 and TSC2, have been attributed to the development of TSC. More than two-thirds of TSC patients are sporadic cases, and a wide variety of mutations in the coding region of the TSC1 and TSC2 genes have been reported.MethodsMutational analysis of TSC1 and TSC2 genes was performed in 84 Taiwanese TSC families using denaturing high-performance liquid chromatography (DHPLC) and direct sequencing.ResultsMutations were identified in a total of 64 (76 %) cases, including 9 TSC1 mutations (7 sporadic and 2 familial cases) and 55 TSC2 mutations (47 sporadic and 8 familial cases). Thirty-one of the 64 mutations found have not been described previously. The phenotype association is consistent with findings from other large studies, showing that disease resulting from mutations to TSC1 is less severe than disease due to TSC2 mutation.ConclusionThis study provides a representative picture of the distribution of mutations of the TSC1 and TSC2 genes in clinically ascertained TSC cases in the Taiwanese population. Although nearly half of the mutations identified were novel, the kinds and distribution of mutation were not different in this population compared to that seen in larger European and American studies.
Autosomal recessive spinal muscular atrophy (SMA) is a common, fatal neuromuscular disease caused by homozygous absence of the SMN1 gene in approximately 94% of patients. However, a highly homologous SMN2 gene exists in the same chromosome interval, centromeric to SMN1, and hampers detection of SMN1. We present a new, rapid, simple, and highly reliable method for detecting the SMN1 deletion/conversion and for determining the copy numbers of the SMN1 and SMN2 genes by DHPLC. We analyzed SMN1/SMN2 gene exon 7 deletion/conversion by DHPLC. A total of 25 patients with spinal muscular atrophy lacking the SMN1 gene as well as 309 control individuals from the general population and the family members of patients with SMA were analyzed. By DHPLC analysis, we could detect the SMA-affected cases efficiently just by recognizing an SMN2-only peak. Furthermore, after specific primer amplification and adjustment of the oven temperature, all of the SMA carriers with an SMN1/SMN2 ratio not equal to 1 could be identified unambiguously by this simple and efficient detection system. To calculate the total SMN1/SMN2 gene dosages further, we developed a specific multiplex competitive PCR protocol by simultaneously amplifying the CYBB gene (X-linked), the KRIT1 gene (on chromosome arm 7q), and the SMN1/SMN2 gene ratio by DHPLC. By applying this technique, we could successfully designate all of the genotypes with different SMN1/SMN2 gene copy numbers, including equal and unequal amounts of SMN1 and SMN2. We demonstrated that DHPLC is a fast and reliable tool for detection of carriers of SMA.
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