Abstract: The present invention relates to a method for quantifying a target nucleic acid sequence by use of a common internal control. The present invention allows to determine an absolute initial amount of a target nucleic acid sequence with no use of a standard curve. The present invention amplifies not only a control reaction mixture comprising a known-amount standard and an internal control but also a sample reaction mixture comprising an internal control identical to the internal control in the control reaction mixture and the target nucleic acid sequence to be quantified. In the present invention, a relative ratio of the amount of the standard and the amount of the target nucleic acid sequence is calculated by using the internal control and then an initial amount of the target nucleic acid sequence is determined by using a known amount of the standard.

Abstract: The present invention relates to differentiating signals of interest for target nucleic acid sequences. The present invention permits to obtain an individual signal value (i.e., variable) contained in a total signal detected at detection temperatures by using mathematical equations. The present invention based on equation-solving approach enables to obtain the individual signal value in a systematical manner, thereby providing analysis results in much more accurate and convenient manner.

Abstract: The present invention relates to the determination of the presence or absence of a target analyte by a Multiple Dataset Analysis (MDA). The present invention can dramatically reduce errors (particularly, false positive errors) in determination of the presence or absence of a target analyte, by using two or more different types of datasets from an amplification reaction.

Abstract: The present invention relates to various processes by a template-dependent extension reaction using a dual specificity oligonucleotide and a dual specificity oligonucleotide composed of three different Tm portions therefor. Demonstrated in the present invention are the features of the dual specificity oligonucleotide, which are high hybridization specificity and mismatch tolerance.

Abstract: The present invention relates to the detection of a target nucleic acid sequence by a PCE-SH (PTO Cleavage and Extension-Dependent Signaling Oligonucleotide Hybridization) assay. The present invention does not use probes to be hybridized with target nucleic acid sequences for providing target signals. Interestingly, the present invention uses probes (signaling oligonucleotides) to be hybridized with the extended strand formed in a target-dependent manner in which the extended strand is synthesized using the CTO artificially selected as templates.

Abstract: The present invention relates to the detection of a target nucleic acid sequence by a PCE-NH (PTO Cleavage and Extension-Dependent Non-Hybridization) assay. The present invention adopts the occurrence of the inhibition of the hybridization between the HO with the CTO by the formation of the target-dependent extended duplex. Therefore, the present invention may detect target sequences even when the HO is not cleaved. In this regard, the design of the 5?-tagging portion of PTO, CTO and HO sequences may be readily performed and the conditions for reactions may be also easily established. In addition, the detection of the hybrid between the CTO and the HO may be performed in a different vessel from that for the extension of the CTO.

Abstract: The present invention relates to a novel method for detection of target nucleic acid sequences on a solid phase using dual-labeled immobilized probes and its resistance to a 5? to 3? exonuclease activity of a DNA polymerase. Because the label is remained on the solid substrate by resistance to nucleases due to labeling of a base component the internal nucleotide, the present invention requires no consideration of a suitability of position of the label for remaining on the solid substrate. The present invention ensures to minimize background signal by positioning labels at a site on probes suitable to maximize quenching efficiency of the dual label system, since it permits to freely determine the position of the internal label on probes.

Abstract: The present invention relates to various processes by a template-dependent extension reaction using a dual specificity oligonucleotide and a dual specificity oligonucleotide composed of three different Tm portions therefor. Demonstrated in the present invention are the features of the dual specificity oligonucleotide, which are high hybridization specificity and mismatch tolerance.

Abstract: The present invention relates to a method for lyophilizing a composition for multiple target nucleic acid sequence amplification reaction and a lyophilizate prepared by the method. The present method is very effective in lyophilizing a composition containing a high concentration of oligonucleotides. The lyophilizates prepared by the present invention exhibits excellent properties in terms of both sensitivity and specificity, equivalent performance capacity to conventional liquid formulation and furthermore remarkable storage stability. Accordingly, the lyophilizates prepared by the present invention would be very useful in diagnosis.

Abstract: The present invention relates to the detection of a target nucleic acid sequence by a PCE-SH (PTO Cleavage and Extension-Dependent Signaling Oligonucleotide Hybridization) assay. The present invention does not use probes to be hybridized with target nucleic acid sequences for providing target signals. Interestingly, the present invention uses probes (signaling oligonucleotides) to be hybridized with the extended strand formed in a target-dependent manner in which the extended strand is synthesized using the CTO artificially selected as templates.

Abstract: The present invention relates to the detection of a target nucleic acid sequence by a POCH (PO Cleavage and Hybridization) assay on a solid substrate. The present invention detects the target nucleic acid sequence by use of in which the PO (Probing Oligonucleotide) hybridized with the target nucleic acid sequence is cleaved and the cleavage of the PO is detected by hybridization with the CO (Capturing Oligonucleotide). In the present invention, an uncleaved PO is hybridized with the CO immobilized onto the solid substrate. The designs of the PO and the CO are convenient and the optimization of reaction conditions is routinely easy in the present invention. Where the detection of signal on the solid substrate is continuously performed along with repetition of cleavage of the POs in the present invention, the number of the POs cleaved is increased upon the repetition number of the cleavage reaction and the signal is changed in parallel with the number of the POs cleaved.

Abstract: The present invention relates to detection of target nucleic acid sequences using different detection temperatures and reference values. The present invention employing different detection temperatures and reference values enables to detect a plurality of target nucleic acid sequences in conventional real-time manners even with a single type of label in a single reaction vessel.

Abstract: The present invention relates to the detection of a target nucleic acid sequence in a real-time manner using a target signal generating primer (TSG primer) having dual interactive labels. The present invention allows for both target amplification and signal amplification by introducing dual interactive labels into a primer used in PCR reactions, ensuring real-time target detection by PCR reactions without the use of complicated oligonucleotides. The present invention could be free from the troublesome matters and shortcomings associated with conventional real-time PCR methods. The present invention allows for successful real-time target detection by using only a labeled primer. Also, the present invention can obtain strong signals indicative of the presence of target nucleic acid sequences in both a liquid phase and solid phase.

Abstract: The present invention is generally drawn to a novel method for determining a SNP (single nucleotide polymorphism) genotype using a PTO-SNV (Probing and Tagging Oligonucleotide for Single Nucleotide Variation). The present invention provides novel protocols for SNP genotyping in which only one allele-specific oligonucleotide permits in a SNP genotyping reaction to determine whether a target nucleic acid sequence to be analyzed is homozygous or heterozygous for the SNP allele of interest or has no SNP allele of interest.

Abstract: The present invention relates to the detection of a target nucleic acid sequence by a PCE-NH (PTO Cleavage and Extension-Dependent Non-Hybridization) assay. The present invention adopts the occurrence of the inhibition of the hybridization between the HO with the CTO by the formation of the target-dependent extended duplex. Therefore, the present invention may detect target sequences even when the HO is not cleaved. In this regard, the design of the 5?-tagging portion of PTO, CTO and HO sequences may be readily performed and the conditions for reactions may be also easily established. In addition, the detection of the hybrid between the CTO and the HO may be performed in a different vessel from that for the extension of the CTO.

Abstract: The present invention relates to a target discriminative probe (TD probe) and its uses or applications. The TD probe is hybridized with a target nucleic acid sequence through both of the 5?-second hybridization portion and the 3?-first hybridization portion. When the TD probe is hybridized with a non-target nucleic acid sequence, both the 5?-second hybridization portion and the separation portion are not hybridized with the non-target nucleic acid sequence such that both portions form a single strand due to its low Tm value. As such, the TD probe exhibits distinctly different hybridization patterns for each of the target and the non-target nucleic acid sequence, discriminating the target nucleic acid sequence from the non-target nucleic acid sequence with much higher specificity.

Abstract: The present invention relates to detection of target nucleic acid sequences using different detection temperatures. The present invention employing different detection temperatures enables to detect a plurality of target nucleic acid sequences in conventional real-time manners even with a single type of label in a single reaction vessel. The conventional technologies detect a plurality of target nucleic acid sequences by a melting analysis after target amplification. Unlikely, the present invention does not require a melting analysis after target amplification, such that the time for analysis is greatly reduced.

Abstract: The present invention relates to a method for analyzing a sample. In particular, the present invention relates to a method for analyzing a sample and a method for correcting a raw data set of an amplification reaction. The present invention for analyzing a sample prevents from determining cycles based on false signals usually observed in a multitude of reactions and processes, thereby much more accurately obtaining information for analyzing a sample.

Abstract: The present invention relates to the detection of a target nucleic acid sequence by a PTO Cleavage and Extension-Dependent Signaling Oligonucleotide Cleavage assay (PCE-SC assay). The present invention is carried out in such a manner that the extended strand is produced on the CTO having arbitrary sequences as templates depending on the presence of target nucleic acid sequences and in turn the SO as probes is hybridized with the extended strand to give signal. The present invention employs a series of reactions including PTO hybridization and cleavage, CTO hybridization and extension, and SO hybridization and cleavage, which is responsible for the highly enhanced specificity of the present invention.

Abstract: The present invention is generally drawn to a novel method and a kit for detecting nucleotide variations by a PTOCE (PTO Cleavage and Extension) assay with PTO-NV. Furthermore, the present invention is directed to a novel method and a kit for detecting a nucleotide variation on a target nucleic acid sequence by a PTOCE assay with PTO-NV having a non-base paring moiety.