Changes of gel temperature during single-strand conformation polymorphism (SSCP) electrophoresis increase the sensitivity of mutation detection in polymerase chain reaction (PCR) products and significantly reduce the overall time and costs of analysis. Based on these findings, a new method for single nucleotide polymorphism (SNP) and point mutation detection--multitemperature single-strand conformation polymorphism (MSSCP) was devised. In order to control the gel temperature with 0.1 degrees C accuracy during electrophoresis, new equipment was developed. We demonstrated that increasing the gel temperature by 8 degrees C or decreasing it by 10 degrees C from 23 degrees C led to the disappearance of all electrophoretic differences between five alleles of exon 8 of the human p53 gene during the SSCP analysis. The interesting result was the detection of two additional SNPs (out of seven analyzed) in exon 7 of the human PAH gene during a one hour MSSCP electrophoresis. This result is better than that obtained by three classical SSCP analyses of the same samples at different but constant gel temperatures. We advocate the MSSCP technology as a fast, reliable, and cost-effective tool for the screening and preselection stage of genomics surveys, especially when a high variability of the analyzed DNA fragment is expected.
Factor XI (FXI) deficiency is a rare inherited disorder which can cause bleeding complications especially in case of hemostatic challenge and/or in tissues with high fibrinolytic activity. A number of causative mutations have been described in FXI deficient individuals which have been detected by various screening methods. In this study, we present the application of the multitemperature single-strand conformation polymorphism analysis (MSSCP) on the FXI gene, a recently developed methodology for the detection of single nucleotide exchanges. We analyzed a total of 217 polymerase chain reaction (PCR) fragments from the promoter region as well as from exons 1-7 and 11-15 and compared the results to automatic fluorescent sequencing. A total of 29 PCR fragments showed single nucleotide exchanges in conventional fluorescent sequencing, representing 10 different mutations (nine missense mutations, one small deletion) and four frequent polymorphisms. With MSSCP electrophoresis at a standard temperature profile (gel temperature 35-20-10 degrees C) we were able to detect 13 of 14 (93%) different nucleotide exchanges in 25 of 29 PCR fragments (86%). Hence, the detection rate for genetic variations in the FXI gene was 86%. To evaluate the reproducibility, MSSCP was performed twice for 174 PCR fragments and the consistency between two electrophoretic runs was 99%. We conclude that the MSSCP is a sensitive, fast, and cost effective screening method for the detection of FXI gene mutations.
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