Abstract: The present invention provides a primer extension reaction method, such as a PCR method, for structure-independent amplification of DNA containing CG-rich repeat sequences wherein in the extension step the temperature fluctuates between a first extension temperature and a second extension temperature. The present invention also provides methods for diagnosing disorders. The present invention also provides a thermal cycler programmed to perform the method of the invention.

Abstract: This document relates to melting curve analysis of nucleic acids. The method according to first aspect of the invention comprises analyzing a nucleic acid melting curve measured from a sample, the melting curve comprising a sum signal of at least two nucleic acid melt signals and a background signal as a function of temperature. The method further comprises optimizing at least one constant in a temperature-dependent exponential correction function so as to minimize the variation of the nucleic acid melting curve at a temperature region where the target nucleic acids in the sample remain essentially double stranded, and generating a corrected nucleic acid melting curve representative of the nucleic acid melt signal by applying said exponential correction function over the region of the measured melting curve where the strands of the nucleic acids dissociate.

Abstract: The present invention provides a method for quantitative and/or comparative assessment of the relative amounts of mRNA transcripts present in a cell or tissue sample. In the method reverse transcription of the mRNA contained in the sample is first carried out using sequence-modifying primers for one or several genes in the same reaction to obtain a pool of sequence-modified cDNA molecules. After completion of the reverse transcription redundant sequence-modifying primers are removed or inactivated. This step is followed by a step of co-amplifying the sequence-modified cDNA templates with a reference DNA template in individual gene-specific amplification reactions. By quantitatively measuring the amounts and determining the relative levels of the amplification products derived from sequence-modified cDNA and reference DNA templates, a gene-specific cDNA over DNA ratio is obtained in each of the individual amplification reactions.