In order to detect mutations in a gene, either known mutations from human diseases or artificial ones in transgenic animals, or to screen for not yet identified mutations in patients, a method is required which guarantees detection of mutations which might occur in every single position of the whole open reading frame (ORF). It will be shown that a combination of polymerase chain reaction (PCR) and temperature gradient gel electrophoresis (TOGE) fulfills these requirements. By thermodynamic calculations the shift in the gel electrophoresis due to a mutation can be calculated in dependence on the position of the mutation. The theoretical results were tested with the mutations known so far. The quantitative determination of the copy number of a specific DNA or RNA sequence in a biological specimen (quantitative PCR) can be performed precisely and easily by combining PCR and TGGE. The system uses a quantification strategy of a new type of internal standardization. TGGE is applied to separate homo- and heteroduplexes which correspond respectively to standard and template sequences. The accuracy of this quantification strategy is very high, with a variability of < 15%. In addition to quantification, PCR/TGGE detects PCR artifacts and template mutants.
Gerstmann-Sträussler-Scheinker syndrome (GSS), fatal familial insomnia (FFI) and familial Creutzfeldt-Jakob disease (CJD) are caused by point mutations or octarepeat insertions in the prion protein (PrP) gene. In the present work a method was established that is appropriate for a thorough screening for mutations in the PrP gene and is generally applicable to screenings of any given gene. Temperature gradient gel electrophoresis (TGGE) was modified at two critical steps by UV cross-linking of the DNA strands and by replacing the spatial gradient with a temporal one. The shift of a DNA band in temporal temperature gradient gel electrophoresis (tTGGE) due to a mutation can be calculated as a function of the position of the mutation in the sequence. Appropriate DNA fragments were selected for polymerase chain reaction (PCR) amplification and analysis by tTGGE on the basis that the predicted band shifts amount to more than 10% of the migration distance for all possible mutations. The accuracy of the prediction was tested experimentally with ten known mutations in the human PrP gene, and quantitative agreement between theory and experiment was achieved. Thus, this screening method is also a suitable means to verify the absence of mutations in a given gene segment.
Fatal yellowing is a serious disease of still unknown origin affecting oil palms in several regions of Central and South America. In this study a search for viroids and viroid‐like RNAs in oil palms was performed using two‐dimensional gel electrophoresis and return gel electrophoresis of nucleic acid extracts. Although RNAs showing viroid‐like gel‐electrophoretic properties were detected, the presence of the known viroids was excluded by hybridization experiments using probes specific for potato spindle tuber viroid (PSTVd), coconut cadang‐cadang viroid (CCCVd), or Coleus blumei viroid 1 (CbVd1). By using double‐stranded RNA (dsRNA) specific monoclonal antibodies, which do not react with viroid RNA, we were able to show that oil palm RNAs, migrating like viroids are double‐stranded RNA species. Since the same dsRNA pattern was found in extracts from diseased as well as from healthy oil palms, the dsRNAs can neither be part of the causative agent of fatal yellowing, nor are they associated with the disease. Their possible origin is discussed. In addition to the standard electrophoretic methods, which have been used for identification of viroids and viroid‐like RNAs, we describe additional control experiments to differentiate unequivocally between circular single stranded and linear dsRNA.
Renal cell carcinoma is the most common neoplastic disease of the adult kidney and occurs in its sporadic and hereditary form. Approximately 57% of all renal carcinomas of the clear cell type analyzed revealed a mutation in the von Hippel-Lindau disease (VHL) gene. In the present work, temperature gradient gel electrophoresis (TGGE) is presented as a rapid and precise polymerase chain reaction (PCR)-employing methodology for the detection of mutations in the VHL gene. The theoretical efficiency of TGGE to detect mutations in every base pair of the gene was calculated. According to computer analysis, at least 92% of all known mutations in the VHL gene are detectable. This calculated figure appears to be in agreement with the experimental results. Primary difficulties in analyzing exon 1 of the VHL gene were overcome by the employment of psoralen-cross-linked PCR fragments. In addition, TGGE analysis was used in screening for possible mutations in thirteen renal carcinoma samples. With this protocol TGGE is successfully added to the array of methods for the screening of VHL mutations.
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