Abstract: Aspects of the present invention relate to compositions and methods for providing DNA fragments from an archived sample (e.g., paraffin-embedded and/or fixed-tissue biopsies, etc). Particular aspects provide methods whereby high yields of DNA are isolated as well as a substantial portion of the DNA consists of long DNA fragments, and where the isolated genomic DNA is free of associated or cross-linked contaminants like proteins, peptides, amino acids or RNA. The methods are facile, cost-effective, an are characterized by high reproducibility and reliability. Particular aspects provide methods for providing DNA fragments derived from an archived sample, wherein the yield of DNA before, for example, an amplification step is at least 20%, and amplicons up to a length of about 1,000 base pairs are amplifiable.

Abstract: Disclosed is a method for the specific amplification of template DNA in the presence of potentially contaminating PCR products from previous amplification experiments. In the first step DNA is contacted with a bisulfite solution, which reacts with unmethylated cytosines but not with methylated cytosines, by sulfonating them. This results in deamination of the cytosine whereby sulfonated uracil is generated. Such sulfonation protects the template nucleic acid from being a target for the enzyme UNG. Any contaminating DNA, which contains unprotected unsulfonated or desulfonated uracils is degraded enzymatically while UNG is active. After UNG treatment and inactivation, the sulfonated uracil bases are converted into uracil by desulfonation. This method is useful for decontamination of nucleic acid samples, or rather for avoiding amplification of ‘carry over products’ in particular in the context of DNA methylation analysis. Furthermore it can be used as a simplified method of bisulfite treatment in general.

Abstract: Aspects of the present invention relate to compositions and methods of identifying at least one biological sample in the field of methylation analysis. In particular aspects at least one biological sample is provided, at least one identifier is applied for each sample, the applied identifier(s) are detected or quantified, and the methylation analysis is performed. Additional aspects provide a methods for testing an experimental procedure. Additional aspects provide kits suitable for realizing the aspects of the invention.

Abstract: Particular aspects provide methods for specific amplification of template DNA in the presence of potentially contaminating PCR products from previous amplification experiments. Particular embodiments comprise, in a first step, contacting DNA with a bisulfite solution, which sulfonates unmethylated (but not methylated) cytosines, resulting in cytosine deamination and generation of sulfonated uracil. Such sulfonation protects the template nucleic acid from being a target for the enzyme uracil-DNA-glycosylase (UNG), whereas any contaminating DNA, which contains unprotected unsulfonated or desulfonated uracils, is degraded enzymatically while the UNG is active. After UNG treatment and inactivation thereof, the sulfonated uracil bases are converted into uracil by desulfonation. Such aspects have substantial utility for decontamination of nucleic acid samples; e.g., for avoiding amplification of ‘carry over products’ in the context of DNA methylation analysis.

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.