Abstract: A method is described for the analysis of cytosine methylation patterns in genomic DNA samples. In the first method step, the genomic DNA is isolated from cells or other accompanying materials and bound essentially irreversibly to a surface. Then the DNA bound to the surface is treated, preferably with a bisulfite, in such a way that cytosine is converted into a base that is different in its base pairing behavior in the DNA duplex, while 5-methylcytosine remains unchanged. Then the reagents that were used are removed in a washing step. Finally, selected segments of the immobilized DNA are amplified in a polymerase reaction and the amplified products are investigated with respect to their sequence.

Abstract: A method is described for the analysis of cytosine methylation patterns in genomic DNA samples. In the first method step, the genomic DNA is isolated from cells or other accompanying materials and bound essentially irreversibly to a surface. Then the DNA bound to the surface is treated, preferably with a bisulfite, in such a way that cytosine is converted into a base that is different in its base pairing behavior in the DNA duplex, while 5-methylcytosine remains unchanged. Then the reagents that were used are removed in a washing step. Finally, selected segments of the immobilized DNA are amplified in a polymerase reaction and the amplified products are investigated with respect to their sequence.

Abstract: A method is described for the analysis of cytosine methylation patterns in genomic DNA samples. In the first method step, the genomic DNA is isolated from cells or other accompanying materials and bound essentially irreversibly to a surface. Then the DNA bound to the surface is treated, preferably with a bisulfite, in such a way that cytosine is converted into a base that is different in its base pairing behavior in the DNA duplex, while 5-methylcytosine remains unchanged. Then the reagents that were used are removed in a washing step. Finally, selected segments of the immobilized DNA are amplified in a polymerase reaction and the amplified products are investigated with respect to their sequence.

Abstract: A method is described for the analysis of cytosine methylation patterns in genomic DNA samples. In the first method step, the genomic DNA is isolated from cells or other accompanying materials and bound essentially irreversibly to a surface. Then the DNA bound to the surface is treated, preferably with a bisulfite, in such a way that cytosine is converted into a base that is different in its base pairing behavior in the DNA duplex, while 5-methylcytosine remains unchanged. Then the reagents that were used are removed in a washing step. Finally, selected segments of the immobilized DNA are amplified in a polymerase reaction and the amplified products are investigated with respect to their sequence.

Abstract: The present invention concerns a method for investigating cytosine methylations in DNA sequences. By this means, the DNA to be investigated is reacted with a cytidine deaminase which deaminates cytidine more rapidly than 5-methylcytidine. Cytosine is converted to uracil by the conversion, whereas 5-methylcytosine remains essentially unchanged. The enzymatically pretreated DNA is preferably amplified and can be analyzed by different methods. The method according to the invention is particularly suitable for the diagnosis of cancer diseases and other disorders associated with a change in the methylation status, as well as for the prognosis of undesired drug effects.

Abstract: A method is described for the detection of the degree of methylation of a specific cytosine in the sequence context 5′-CpG-3′ of a genomic DNA sample. In the first step, the genomic DNA is chemically treated in such a way that the cytosine bases are converted to uracil, but not the 5-methylcytosine bases. Then segments of the genomic DNA which contain the said specific cytosine are amplified, whereby the amplified products are given a detectable label and in the following steps the extent of hybridization of the amplified products on two classes of oligonucleotides is determined by detection of the label of the amplified products, and a conclusion is made on the extent of methylation of said specific cytosine in the genomic DNA sample from the ratio of the labels detected on the two classes of oligonucleotides as a consequence of the hybridization.

Abstract: A method is described for the analysis of cytosine methylation patterns in genomic DNA samples. In the first method step, the genomic DNA is isolated from cells or other accompanying materials and bound essentially irreversibly to a surface. Then the DNA bound to the surface is treated, preferably with a bisulfite, in such a way that cytosine is converted into a base that is different in its base pairing behavior in the DNA duplex, while 5-methylcytosine remains unchanged. Then the reagents that were used are removed in a washing step. Finally, selected segments of the immobilized DNA are amplified in a polymerase reaction and the amplified products are investigated with respect to their sequence.

Abstract: This involves a device for the random arrangement of vessels open at the top in a rectangular grid, whereby the grid of vessels is bounded at two opposite-lying sides by static side walls (B), between which it can be moved as a whole with the other two side walls (A) perpendicular thereto, and there is at least one position, at which the static side walls are perforated at opposite-lying places and at least one other vessel can be moved into the grid with a guide element (C), which simultaneously retracts on the opposite-lying side, in order to take up the vessel that has been moved out of the grid, and to move it again into the grid at another place, if necessary, and thus to successively permutate the vessels.