Recovery Of Bisulfite-Converted Genomic Sequences In The Methylation-Sensitive Qpcr

Many methods for the detection of genomic DNA methylation states have appeared. Currently, nearly all such methods employ bisulfite- mediated deamination of denatured DNA. While this treatment effectively deaminates cytosines to uracils, leaving most 5- methylcytosines intact, it also introduces abasic sites that generate a significant number of single- strand breaks in DNA. We have investigated the interplay of these two processes in order to determine their relative effects on the methylationsensitive QPCR method. The extent of cleavage of the input DNA is significant and appears to be an increasing function of DNA concentration. Even so, the results suggest that only similar to 10% of a 62- nt target will be lost due to degradation and targets up to 131 nt will suffer only a 20% loss. More significant losses were found to occur during the subsequent removal of bisulfite and desulfonation steps that appear to be the result of size selectivity associated with matrix binding and elution required prior to QPCR in the most commonly used protocols. For biospecimens yielding <1 mu g of DNA, these findings suggest that bisulfite treatment, in current implementations of MS- QPCR, result in low recoveries that preclude reliable analysis of DNA methylation patterns regardless of target size.