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Mutation Screening Methods (mutation + screening_methods)
Selected AbstractsAutomated mutation screening using dideoxy fingerprinting and capillary array electrophoresisHUMAN MUTATION, Issue 5 2001Lars Allan Larsen Abstract The rapid progress in the isolation of genes associated with human disease has resulted in an increasing demand for mutation screening methods. The molecular diagnosis of the long QT syndrome (LQTS), a cardiac disorder characterized by prolongation of the QTc interval in the ECG, syncopes, and sudden death, requires mutation screening of all exons in at least five genes, encoding cardiac Na+ and K+ channel subunits. A method for automated dideoxy fingerprinting (ddF) using capillary array electrophoresis (CAE) was developed and the efficiency of the method was tested by analyzing 24 DNA samples with mutations in one of the genes KCNQ1 and KCNH2, which are involved in 50% of LQTS cases. One of these mutations, 362insQK in KCNQ1, is novel. The sensitivity was 100% using a single electrophoresis temperature of 18°C or 25°C. However, analysis of the samples in both the sense and anti-sense direction were required for high sensitivity. Analysis in a single direction resulted in a decrease of the sensitivity to 74% and 70%, respectively. The throughput of the ddF method, if performed with a 16 capillary CAE instrument, is 288 samples per seven hr if each sample is analyzed on both strands. Hum Mutat 18:451,457, 2001. © 2001 Wiley-Liss, Inc. [source] Specificity of TP53 mutation screening methods in cancerous tissuesINTERNATIONAL JOURNAL OF CANCER, Issue 1 2006Jean Breton No abstracts. [source] Response to Breton et al. specificity of TP53 mutation screening methods in cancerous tissuesINTERNATIONAL JOURNAL OF CANCER, Issue 1 2006Osamu Yamanoshita No abstract is available for this article. [source] Analysis of mRNA in hemophilia A patients with undetectable mutations reveals normal splicing in the factor VIII geneJOURNAL OF THROMBOSIS AND HAEMOSTASIS, Issue 2 2005O. EL-MAARRI Summary.,Background: haemophilia A (HA) is characterized by partial or total deficiency of factor VIII (FVIII) protein activity. It is caused by a broad spectrum of mutations in the FVIII gene. Despite tremendous improvements in mutation screening methods, in about 2% of HA patients no DNA change could be found, even after sequencing the whole coding part of the FVIII gene including the flanking splice sites, as well as the promotor and the 3, UTR regions. Objectives, patients and methods: In the present study we performed a detailed RNA analysis of three groups of patients. The first included control patients with known splicing defects, the second included two patients with already identified nucleotide changes close to splicing sites, that could potentially alter the normal splicing process, and a third group of 11 unrelated patients whose genomic DNA have already been screened for mutations by DHPLC and direct sequencing with no mutation being identified. Results: Both candidate splice site mutations were shown to result in either skipping or alternative splicing of at least one exon, therefore these DNA changes must be considered as causal for the patients' HA phenotype. In contrast, no abnormalities on the RNA level were observed in any of 11 unrelated patients without mutations in the FVIII gene. Conclusions: These findings exclude mutations that could be located deep in the introns and affecting either normal splicing or lead to mechanisms causing some unknown rearrangements of the FVIII gene. In fact, our results point to the presence of still unknown factor(s) causing HA, which might be either allelic or in the close proximity of the FVIII gene or non-allelic associated with other genetic loci that are involved in the processing of the FVIII protein. [source] | ||||||||||