The CpGenome™ Human Non-Methylated DNA Standard is purified from HCT116 DKO cells that contain genetic knockouts of DNA methyltransferases, DNMT1 (-/-) and DNMT3b (-/-) , and have less than 5% methylated DNA. It is intended for use as a negative control in gene methylation studies, such as bisulfite conversion of DNA with the CpGenome™ Turbo […]
- DNA Methylation Control DNA
CpGenome™ Universal Methylated Mouse DNA Standard
The CpGenome™ Universal Methylated Mouse DNA Standard contains universally methylated mouse genomic DNA isolated from male Balb/c mice and enzymatically methylated at all CpGs by M.SssI methyltransferase 1. It can be used as a positive control for gene methylation studies, and is fully compatible with the CpGenome™ Turbo Bisulfite kit (Cat. No. S7847) and CpG […]
CpGenome™ Human Methylated DNA Standard
The CpGenome™ Human Methylated DNA Standard is purified from HCT116 DKO cells that contain genetic knockouts of DNA methyltransferases, DNMT1 (-/-) and DNMT3b (-/-) , and have less than 5% methylated DNA. This Standard has been methylated enzymatically at all CpG dinucleotides by M. SssI methyltransferase 2. It is intended for use as a positive […]
CpGenome™ Human Methylated & Non-Methylated DNA Standard Set
CpGenome™ Human Methylated & Non-methylated DNA Standards are purified from HCT116 DKO cells that contain genetic knockouts of DNA methyltransferases, DNMT1 (-/-) and DNMT3b (-/-) , and have less than 5% methylated DNA. The CpGenome™ Human Methylated DNA Standard has been methylated enzymatically at all CpG dinucleotides by M. SssI methyltransferase 2. These standards are […]
CpGenome™ 5-mC and 5-hmC DNA Standard Set
CpGenome™ 5-mC and 5-hmC DNA Standard Set contains three linear, double-stranded DNA (897 bp) with the same sequence, but each contains 100 % 5-Methylcytosines (5-mC), 5-hydroxymethylcytosines (5-hmC), or unmodified cytosines. This set can be used to calibrate applications aimed at analyzing and quantifying cytosine modifications. Materials Provided: Three vials, each containing 2 µg (40 µL) […]