Abstract: The present invention relates to a method for determining the DNA quality of a biological sample and, more specifically, to a method for determining the DNA quality of a biological sample by performing a quantitative polymerase chain reaction (PCR) using primers capable of amplifying a target gene, a method for preparing the primers used in the method, and a method for standardizing the amount of detected target gene mutation by using the determined DNA quality. The method of the present invention enables objective evaluation of the NDA quality of a biological sample used in gene analysis and the presentation of objective results on the expression ratio of a gene mutation, thereby providing reliable information in the fields of clinical research and companion diagnosis.

Abstract: The present invention relates to a method for predicting the prognosis of a breast cancer patient. More specifically, to provide information needed to predict the prognosis of a breast cancer patient, the method for predicting the prognosis of breast cancer including the following steps of the present invention comprises: (a) obtaining a biological sample from a breast cancer patient; (b) measuring the mRNA expression level of matrix metallopeptidase 11 (MMP11) and the mRNA expression level of cluster of differentiation 2 (CD2) from patient information or the sample of step (a); (c) normalizing the gene mRNA expression levels selected and measured in step (b); and (d) predicting the prognosis of breast cancer by combining the gene expression levels normalized in step (c), wherein overexpression of the MMP11 indicates a bad prognosis, and overexpression of CD2 indicates a good prognosis.

Abstract: An immune conjugate according to the present invention provides a pharmaceutical composition, which can be used in the target-oriented drug treatment by conjugating a dendron allowing a plurality of drugs to be bound to a surface thereof and a target-directed antibody, and especially, can deliver high concentrations of drugs in a tumor-specific manner to exhibit a strong anticancer effect by conjugating a hydrophilic dendron, to which a plurality of anticancer drugs are bound, to an antibody.

Abstract: The present invention relates to a method for maintaining the increased intracellular p53 level, induced by a platinum-based anticancer drug, and an application thereof and, more specifically, to a method for maintaining the increased intracellular p53 level in cells by administering a platinum-based anticancer drug and siRNA to ubiquitin ligase for p53 to a subject in need thereof in combination and sequentially, and a composition for promoting cancer cell apoptosis using the same. According to the method of the present invention, the increased intracellular p53 expression level can be maintained for a long period of time in spite of the treatment with a low-concentration platinum-based anticancer drug, thereby effectively inducing the apoptosis of cancer cells and minimizing the drug side effect caused by the administration of the platinum-based anticancer drug, and thus the present invention can be favorably used in the prevention of cancer or the development of cancer medicines.

Abstract: The present invention relates to a composition for detecting an epidermal cell growth factor receptor gene mutation and to a kit comprising the composition and, more specifically, to a primer and probe set composition for detecting an epidermal cell growth factor gene mutation, and to a kit for detecting an EGFR gene mutation, comprising the composition. A method according to the present invention can not only predict and diagnose responsiveness to a therapeutic agent for the prognosis of a cancer patient, but also predict a cancer metastasis or relapse Thus, the method can be useful for the purposes of determining the need to administer an anticancer therapeutic agent and guiding the direction of future treatment, and for monitoring a cancer metastasis or relapse.

Abstract: The present invention relates to a method for selecting a gene intended to predict the prognosis for a cancer, to the selected gene for predicting the prognosis of cancer and to a kit for predicting and a method for predicting metastasis in breast-cancer patients by using the same. In the present invention, a straight forward method is used to achieve high-reliability prediction of the patient's prognosis by analyzing for the genetic characteristics of early stage breast cancer, and thus the present invention can be used to advantage in prognosis diagnosis which can reduce unnecessary anticancer therapy.

Abstract: The present invention provides: an antibody which specifically bonds to human NINJ-1; and a fragment thereof. The antibody or the fragment thereof according to the present invention has very high bonding affinity and bonding specificity with respect to a human NINJ-1 or a homogeneous binding site of the protein, and does not exhibit cross-reactivity with NINJ-1 proteins that are derived from other organisms and have high protein similarity. Accordingly, the present invention provides significant advantages with respect to accuracy and sensitivity and the like, not only in diagnosing disease related to NINJ-1 proteins but also in inhibiting pathological conditions involving NINJ-1 proteins. In particular, the antibody provided according to the present invention has a remarkable effect of inhibiting attachment between immunocytes and human cerebral endothelial cells, and thus has an effect of treating multiple sclerosis.

Abstract: The present invention relates to a method for predicting the prognosis of breast cancer patients by using gene deletions and, more particularly, to: a method for detecting a marker for the prognosis of triple negative breast cancer patients in order to provide information necessary for the breast cancer prognosis diagnosis, comprising the steps of obtaining a sample of a subject, extracting genomic DNA from the sample, examining deletions of genes in the extracted genomic DNA, and determining that a subject, in which gene deletions in genomic DNA are confirmed, has a poor prognosis for breast cancer; and a composition for predicting the prognosis of breast cancer patients, containing a preparation enabling the examination of gene deletions and a kit comprising the same as an active ingredient.

Abstract: Disclosed are data processing and analysis methods for gene expression data for identifying endogenous reference genes and a composition for the quantitative analysis of gene expression, comprising a pair of primers and/or probes useful in amplifying the identified endogenous reference genes. Introduced with the concepts of “Zero's proportion” and CV, the method allows different datasets to be integrally analyzed, thereby searching for novel reference genes. By the method, 2,087 genes are first found as housekeeping genes which are expressed in most tissues, and the usefulness thereof in the relative quantification of different target genes is determined by analyzing their expression stability. Of the 2,087 genes, 13 genes show higher expression stability with lower expression levels across a wide range of samples than traditional reference genes such as GAPDH and ACTS, and therefore are suitable for the normalization of universal genes having relatively low expression levels.

Abstract: The present invention relates to a composition for preventing or treating diseases associated with human papillomavirus (HPV), and more specifically, cancer associated with HPV, and even more specifically, cervical cancer. The nucleotide sequence of the present invention, the sequence in which the base thereof is modified, and a specific combination thereof can be useful in a composition for effectively treating diseases associated with HPV infection by greatly inhibiting the expression of the E6/E7 gene of HPV type 16 or 18.

Abstract: The present invention relates to a gene for predicting or diagnosing the prognosis of early-stage breast cancer and to a use thereof, and more specifically relates to a genetic marker for predicting or diagnosing the prognosis of breast cancer, including TRBC1 (T cell receptor beta constant 1), BTN3A2 (butyrophilin, subfamily 3, member A2) or HLA-DPA1 (major histocompatibility complex, class II, DP alpha 1) for providing information necessary for predicting or diagnosing the prognosis of a breast cancer patient. The genetic marker of the present invention allows the prediction or diagnosis of the prognosis of a breast cancer patient, and can therefore advantageously be used for the purpose of providing a direction as to the future course of breast cancer treatment, including a decision on whether anticancer therapy is necessary.

Abstract: The present invention relates to a method for selecting a gene intended to predict the prognosis for a cancer, to the selected gene for predicting the prognosis of cancer and to a kit for predicting and a method for predicting metastasis in breast-cancer patients by using the same. In the present invention, a straight forward method is used to achieve high-reliability prediction of the patient's prognosis by analysing for the genetic characteristics of early stage breast cancer, and thus the present invention can be used to advantage in prognosis diagnosis which can reduce unnecessary anticancer therapy.

Abstract: Disclosed are data processing and analysis methods for gene expression data for identifying endogenous reference genes and a composition for the quantitative analysis of gene expression, comprising a pair of primers and/or probes useful in amplifying the identified endogenous reference genes. Introduced with the concepts of “Zero's proportion” and CV, the method allows different datasets to be integrally analyzed, thereby searching for novel reference genes. By the method, 2,087 genes are first found as housekeeping genes which are expressed in most tissues, and the usefulness thereof in the relative quantification of different target genes is determined by analyzing their expression stability. Of the 2,087 genes, 13 genes show higher expression stability with lower expression levels across a wide range of samples than traditional reference genes such as GAPDH and ACTS, and therefore are suitable for the normalization of universal genes having relatively low expression levels.

Abstract: The present invention relates to an immunocytokine in which a human interferon-beta variant is conjugated to an antibody or a fragment thereof, and a method for preparing the same. The human interferon-beta variant has superior activity or functions compared with natural interferon-beta, and the productivity of the immunocytokine according to the present invention is excellent. In addition, the immunocytokine according to the present invention can be favorably used as a target therapeutic agent for multiple sclerosis or cancer since the immunocytokine express both of functions of the interferon-beta and characteristics of the antibody binding to a specific antigen.

Abstract: The present invention relates to a method of predicting the effectiveness of chemotherapy in a breast cancer patient, and more particularly, to a method for predicting the effectiveness of chemotherapy by measuring the expression levels of genes for predicting prognosis of breast cancer and a standard gene in a biological sample obtained from the breast cancer patient, and a method for predicting the difference between a patient group having a high effectiveness of chemotherapy and a patient group having a low effectiveness of chemotherapy. Therefore, the method of the present invention can accurately predict the effectiveness of chemotherapy for the breast cancer patient and can be used for the purpose of presenting clues about the direction of breast cancer treatment in the future.

Abstract: The present invention relates to a method of predicting the effectiveness of chemotherapy in a breast cancer patient, and more particularly, to a method for predicting the effectiveness of chemotherapy by measuring the expression levels of genes for predicting prognosis of breast cancer and a standard gene in a biological sample obtained from the breast cancer patient, and a method for predicting the difference between a patient group having a high effectiveness of chemotherapy and a patient group having a low effectiveness of chemotherapy. Therefore, the method of the present invention can accurately predict the effectiveness of chemotherapy for the breast cancer patient, and can be used for the purpose of presenting clues about the direction of breast cancer treatment in the future.

Abstract: The present invention relates to a method for maintaining the increased intracellular p53 level, induced by a platinum-based anticancer drug, and an application thereof and, more specifically, to a method for maintaining the increased intracellular p53 level in cells by administering a platinum-based anticancer drug and siRNA to ubiquitin ligase for p53 to a subject in need thereof in combination and sequentially, and a composition for promoting cancer cell apoptosis using the same. According to the method of the present invention, the increased intracellular p53 expression level can be maintained for a long period of time in spite of the treatment with a low-concentration platinum-based anticancer drug, thereby effectively inducing the apoptosis of cancer cells and minimizing the drug side effect caused by the administration of the platinum-based anticancer drug, and thus the present invention can be favorably used in the prevention of cancer or the development of cancer medicines.

Abstract: The present invention relates to a composition for cancer cell sensitization containing as an active ingredient a substance inhibiting the expression of an oncogene of a HPV virus, and more specifically, to a composition for radiosensitization which is used for the treatment of cancer induced by HPV infection and contains as an active ingredient oligonucleotide having any one nucleic acid sequence selected from the group consisting of sequence numbers 1 to 10. The oligonucleotide of the present invention inhibits the expressions of E6 and E7 which are HPV virus oncoproteins, thereby inhibiting the proliferation of tumor cells, and enhances the sensitivity of tumor cells to radiation, thereby exhibiting an excellent effect as a sensitizer that can maximize the cell death effect.

Abstract: An immune conjugate according to the present invention provides a pharmaceutical composition, which can be used in the target-oriented drug treatment by conjugating a dendron allowing a plurality of drugs to be bound to a surface thereof and a target-directed antibody, and especially, can deliver high concentrations of drugs in a tumor-specific manner to exhibit a strong anticancer effect by conjugating a hydrophilic dendron, to which a plurality of anticancer drugs are bound, to an antibody.

Abstract: Disclosed are data processing and analysis methods for gene expression data for identifying endogenous reference genes and a composition for the quantitative analysis of gene expression, comprising a pair of primers and/or probes useful in amplifying the identified endogenous reference genes. Introduced with the concepts of “Zero's proportion” and CV, the method allows different datasets to be integrally analyzed, thereby searching for novel reference genes. By the method, 2,087 genes are first found as housekeeping genes which are expressed in most tissues, and the usefulness thereof in the relative quantification of different target genes is determined by analyzing their expression stability. Of the 2,087 genes, 13 genes show higher expression stability with lower expression levels across a wide range of samples than traditional reference genes such as GAPDH and ACTS, and therefore are suitable for the normalization of universal genes having relatively low expression levels.