Abstract: The invention provides methods, nucleic acids and kits for detecting prostate cell proliferative disorders. The invention discloses genomic sequences the methylation patterns of which have utility for the improved detection of said disorder, thereby enabling the improved diagnosis and treatment of patients.

Abstract: An in vitro method of predicting whether a patient, having a neurodevelopmental, neurological or neuropsychiatric disorder, will derive a clinical benefit if treated with a glycine reuptake inhibitor (GRI), via determination of the protein concentration of one, two, three, four five or six members of the complement factor H family or a mixture or a combination thereof and comparison against a representative value, wherein a higher value of the protein concentration in the patient's sample against the representative value is indicative of a patient whom will derive clinical benefit from treatment with GRI.

Abstract: Aspects of the invention relate to composition and methods for the providing of DNA for methylation analysis that is in particular suitable to be applied in reference laboratories. Further 5 aspects of the invention relate to composition and methods for the highly specific and sensitive methylation analysis of the Septin 9 gene also in particular suitable to be applied in reference laboratories.

Abstract: The invention relates to a method for determining prognosis of subjects with ovarian carcinoma using a biological sample comprising genomic tumor DNA isolated from the subject. According to the invention, the method comprises the steps of: determining the methylation status of a CpG dinucleotide in a target sequence that is selected from the group consisting of the target sequences as referred to by name in Table 1 in a biological sample isolated from a subject; and deducing from the determined methylation status of the target sequence the prognosis of subject with ovarian carcinoma. The improved prognosis determination of the subject with ovarian carcinoma enables the improved treatment of the said patient.

Abstract: The present invention relates to modified and genomic sequences, to oligonucleotides and/or PNA-oligomers for detecting the cytosine methylation state of genomic DNA, as well as to a method for predicting the response of a subject with a cell proliferative disorder of the breast tissues, to endocrine treatment.

Abstract: The present invention relates to modified and genomic sequences, to oligonucleotides and/or PNA-oligomers for detecting the cytosine methylation state of genomic DNA, as well as to a method for predicting the response of a subject with a cell proliferative disorder of the breast tissues, to endocrine treatment.

Abstract: Aspects of the invention provide methods, nucleic acids and kits for detecting, or for detecting and distinguishing between or among liver cell proliferative disorders or for detecting, or for detecting and distinguishing between or among colorectal cell proliferative disorders. Particular aspects disclose and provide genomic sequences the methylation patterns of which have substantial utility for the improved detection of and differentiation between said class of disorders, thereby enabling the improved diagnosis and treatment of patients.

Abstract: The invention provides methods, nucleic acids and kits for detecting, or for detecting and distinguishing between or among prostate cell proliferative disorders or for detecting, or for detecting and distinguishing between or among colorectal cell proliferative disorders. The invention discloses genomic sequences the methylation patterns of which have utility for the improved detection of and differentiation between said class of disorders, thereby enabling the improved diagnosis and treatment of patients.

Abstract: The present invention relates to a method for the quantification of methylated cytosines in DNA. In the first step of the invention unmethylated cytosines in the DNA to be analysed are chemically converted into uracil while 5-methylcytosines remain unchanged. In a second step the converted DNA is amplified methylation specifically in a real time PCR using a methylation specific probe. Finally the amount of uniformly methylated DNA is calculated by combining criteria derived from the shape of the real time curve and from the signal intensity. The method is preferably used for diagnosis and/or prognosis of adverse events for individuals, for distinguishing cell types and tissues, or for investigating cell differentiation.

Abstract: Aspects of the invention provide methods, nucleic acids and kits for detecting, or for detecting and distinguishing between or among liver cell proliferative disorders or for detecting, or for detecting and distinguishing between or among colorectal cell proliferative disorders. Particular aspects disclose and provide genomic sequences the methylation patterns of which have substantial utility for the improved detection of and differentiation between said class of disorders, thereby enabling the improved diagnosis and treatment of patients.

Abstract: Aspects of the present invention relate to compositions and methods for providing DNA fragments from a remote sample. In particular aspects a remote sample comprising DNA is provided, DNA is isolated from the remote sample, and the isolated DNA is treated in a way which allows differentiation of methylated and unmethylated cytosine. Additional, particular embodiments provide compositions and methods for methylation analysis of DNA derived from a remote sample. Other aspects provide for compositions and methods of whole genome amplification of bisulfite treated DNA.

Abstract: The invention provides methods, nucleic acids and kits for detecting, or for detecting and distinguishing between or among liver cell proliferative disorders or for detecting, or for detecting and distinguishing between or among colorectal cell proliferative disorders. The invention discloses genomic sequences the methylation patterns of which have utility for the improved detection of and differentiation between said class of disorders, thereby enabling the improved diagnosis and treatment of patients.

Abstract: Aspects of the invention relate to composition and methods for the providing of DNA for methylation analysis that is in particular suitable to be applied in reference laboratories. Further 5 aspects of the invention relate to composition and methods for the highly specific and sensitive methylation analysis of the Septin 9 gene also in particular suitable to be applied in reference laboratories.

Abstract: The invention provides methods, nucleic acids and kits for detecting prostate cell proliferative disorders. The invention discloses genomic sequences the methylation patterns of which have utility for the improved detection of said disorder, thereby enabling the improved diagnosis and treatment of patients.

Abstract: The invention provides methods, nucleic acids and kits for detecting, or for detecting and distinguishing between or among proliferative disorders. The invention discloses genomic sequences the methylation patterns of which have utility for the improved detection of and differentiation between said class of disorders, thereby enabling the improved diagnosis and treatment of patients.

Abstract: The invention provides methods, nucleic acids and kits for detecting, or for detecting and distinguishing between or among liver cell proliferative disorders or for detecting, or for detecting and distinguishing between or among colorectal cell proliferative disorders. The invention discloses genomic sequences the methylation patterns of which have utility for the improved detection of and differentiation between said class of disorders, thereby enabling the improved diagnosis and treatment of patients.

Abstract: The invention provides methods, nucleic acids and kits for detecting colorectal cell proliferative disorders based on underexpression or methylation of a least one gene selected from RASSF2, TFAP2E, SND1, PCDHGC3, EDNRB, STOM, GLI3, RXFP3, LimK1, GPR73L1, PCDH1O, DOCKIO and MRPS21, and optionally Septin-9. The invention discloses genomic sequences the methylation patterns of which have utility for the improved detection of said class of disorders, thereby enabling the improved diagnosis and treatment of patients.

Abstract: Particular aspects provide methods, nucleic acids and kits for detecting cell proliferative disorders. Preferred aspects provide genomic sequences, the methylation patterns of which have substantial utility for the improved detection of said disorders, providing for improved diagnosis and treatment of same in patients.

Abstract: Particular aspects provide novel methods and compositions (e.g., nucleic acids, kits, etc.) having substantial utility for providing a prognosis of prostate cell proliferative disorders. In particular aspects, this is achieved by the analysis of the expression status of a panel of genes, or subsets thereof.

Abstract: The present application provides methods and nucleic acids the classification of a biological sample. This is achieved by the analysis of the expression status of at least one of the genes selected from Table 1 as disclosed.