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 disease free survival and/or response of a subject with a cell proliferative disorder of the breast tissues, to endocrine treatment.

Abstract: Aspects of the present invention provide compositions and methods for prognosis of, and/or predicting the estrogen treatment outcome of breast cell proliferative disorder patients, and in particular of patients with breast carcinoma. In preferred embodiments, this is achieved, at least in part, by determining the expression level of PITX2, and/or the genetic or the epigenetic modifications of the genomic DNA associated with the gene PITX2. Additional aspects of the invention provide novel sequences, oligomers (e.g., oligonucleotides or peptide nucleic acid (PNA)-oligomers), and antibodies, which have substantial utility in the described inventive methods and compositions.

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 disease free survival and/or response of a subject with a cell proliferative disorder of the breast tissues, to endocrine treatment.

Abstract: Aspects of the present invention provide compositions and methods for prognosis of, and/or predicting the estrogen treatment outcome of breast cell proliferative disorder patients, and in particular of patients with breast carcinoma. In preferred embodiments, this is achieved, at least in part, by determining the expression level of PITX2, and/or the genetic or the epigenetic modifications of the genomic DNA associated with the gene PITX2. Additional aspects of the invention provide novel sequences, oligomers (e.g., oligonucleotides or peptide nucleic acid (PNA)-oligomers), and antibodies, which have substantial utility in the described inventive methods and compositions.

Abstract: Particular aspects of the present invention provide a method for quantification of two different variations of a DNA sequence. Particularly, the invention relates to a quantification of methylated DNA, and for this purpose, the test DNA is converted so that cytosine is converted to uracil, while 5-methylcytosine remains unchanged. The converted DNA is amplified by means of a real-time PCR, wherein two labeled real-time probe types are utilized: one specific for methylated DNA; and one for unmethylated DNA. Preferably, the degree of methylation of the test DNA is calculated from the ratio of the signal intensities of the probes or from the Ct values. The inventive methods have substantial utility for diagnosis and prognosis of cancer and other disorders associated with altered or characteristic DNA methylation status, as well as having substantial utility for analysis of SNPs, allelic expression, and prediction of drug response, drug interactions, among other uses.