Transfection of cells is one of the main techniques used to influence gene expression. Most primary cells and human skeletal myoblasts (SkMC) in particular are very difficult to transfect, whereas for cell lines such as C2C12, many suitable transfect more
Mutation Scanning of the Cytidine Deaminase Gene by High-Resolution Melting Curve Analysis Using the LightCycler® 480 SystemThe purpose of the study was to screen sequence variations of the cytidine deaminase (CDA) gene in tumor samples. CDA plays a key role in the tumoral and hepatic catabolism and inactivation of gemcitabine, a nucleoside analog extensively used in chemotherapeutic treatment of solid tumors. Recent studies have demonstrated that the CDA gene is highly polymorphic, displaying a variety of single nucleotide polymorphisms (SNPs) and one insertion-deletion in African- and Caucasian-American individuals. Genetic variation in CDA might explain the observed interindividual differences in both the therapeutic and toxic responses to gemcitabine-based treatment of cancer. We investigated sequence variations in CDA using a novel gene scanning method based on post-PCR analysis of high-resolution melting curves.
The purpose of the study was to screen sequence variations of the cytidine deaminase (CDA) gene in tumor samples. CDA plays a key role in the tumoral and hepatic catabolism and inactivation of gemcitabine, a nucleoside analog extensively used in chemotherapeutic treatment of solid tumors. Recent studies have demonstrated that the CDA gene is highly polymorphic, displaying a variety of single nucleotide polymorphisms (SNPs) and one insertion-deletion in African- and Caucasian-American individuals. Genetic variation in CDA might explain the observed interindividual differences in both the therapeutic and toxic responses to gemcitabine-based treatment of cancer. We investigated sequence variations in CDA using a novel gene scanning method based on post-PCR analysis of high-resolution melting curves. The method reveals sequence variants due to distinct patterns in melting curve shape, allowing limitation of sequencing to those samples that actually contain anomalous sequence information. The LightCycler® 480 System is a multiwell-plate-based system integrating PCR and high-resolution melting capabilities, including an optimized master mix and analysis software. We tested the LightCycler® 480 System and also compared it with the LightScanner Instrument (Idaho Techn.)
Materials and Methods
The LightCycler® 480 High Resolution Melting Master Mix containing a proprietary saturating HRM dye was used as described in the pack insert. 1 µl of a 20 ng/µl solution of each DNA sample (derived from 46 individuals) was added to 9 µl of PCR mix in 96-well plates, as well as 3 mM MgCl2 and 0.5 µM of each primer. PCR was carried out using a touchdown protocol, with annealing temperatures ranging from 70°C to 60°C. High-resolution melting curve data were obtained at a rate of 25 acquisitions per °C (Figure 1). Fluorescence data were visualized using normalization, temperature-shifting, and difference plotting , and then analyzed using the automated grouping functionalities provided by the LightCycler® 480 Gene Scanning Software. Amplicons displaying sequence variations were subsequently subjected to DNA sequencing.
An overview of the analyzed CDA gene fragment is given in Figure 2. High-resolution melting analysis showed that 22 of 46 DNA samples were heterozygous for a sequence change in a 173-bp-fragment derived from exon 1 (Figure 3). Sequencing showed that the underlying variation corresponded to a known SNP resulting in a Lys27Gln change. All other samples had wild-type sequences, and data obtained by high-resolution melting were 100% concordant with sequencing data. When a longer amplicon was investigated, high-resolution melting revealed the presence of another variant in two cases (shown in green in Figure 4). Sequencing confirmed that these two samples were heterozygotes for the 2 SNPs A79C and IVS1+37 G>A. They were easily distinguishable in the difference plot chart from samples that harbored A79C alone.
Sensitivities and specificity of HRM-based gene scanning on the LightCycler® 480 System were comparable to that obtained with previously used, more conventional scanning methods (e.g., dHPLC), with the advantage that results were obtained much faster and with much less hands-on time. Performance also was comparable with the one obtained on the LightScanner platform; however, as an integrated PCR/HRM platform, the LightCycler® 480 System allowed concomitant online control of amplification efficiency and reaching of the plateau phase. In contrast to the LightScanner, it did not require oil overlay on plates. In our hands, the LightCycler® 480 Gene Scanning Software was easy to use, detecting 100% of heterozygotes. When the default sensitivity settings were applied, we were able to identify heterozygous single base changes in PCR products (up to 622 bp in our experiments) with an optimal sensitivity and specificity (not shown). Differentiation of homozygote wildtypes and mutations turned out to be highly dependent on various target-specific factors, including amplicon length and GC content. Spikes of wild-type DNA added to all samples and comparison to unspiked reactions has been shown by others to provide a valuable approach to addressing this point. We found that gene scanning results were best when the amount of starting DNA was standardized as much as possible; which was not always easy to do, since blood samples were derived from various origins so that DNA quality varied. The melting protocol proposed by Roche proved to be suitable for most of our experiments. The LightCycler® 480 High Resolution Melting Master was easy to use because all components – including a novel HRM dye – are provided in one tube. The fact that MgCl2 was provided separately allowed us to adapt the concentrations to the one known from PCR protocols optimized previously.
In summary, our results show that the LightCycler® 480 System provides a novel, integrated solution to scanning gene fragments for sequence variations based on post-PCR melting curve analysis at high resolution.
1. BIOCHEMICA 2007 1:17–19
2. Mercie C et al. (2007) Pharmacogenet Genomics, in press
A more extended version of this study was presented at the Human Genome Meeting 2007 in Montreal, Canada, May 21–24 2007 (submitted abstract: Mutation scanning of the cytidine deaminase [CDA] and dihydropyrimidine dehydrogenase [DPYD] genes by high-resolution melting curve analysis in cancer patients treated with antimetabolites drugs).
This article was originally published in Biochemica 3/2007, pages 13-14. ©Springer Medizin Verlag 2007
- single nucleotide p…
- multiwell plates
- human genome
- DNA sequencing
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