Genome-wide 5hmC and 5fC profiling

Mapping genome-wide 5-hydroxymethylcytosine (5hmC) and 5-formylcytosine (5fC) at single-base resolution is important to understand their biological functions. We developed a cost-efficient mapping method that combines a 5hmC-specific restriction enzyme PvuRts1I with a 5hmC chemical labeling enrichment method. The sensitive method enables detection of low-abundance 5hmC sites, providing a more complete 5hmC landscape than currently available bisulfite-based methods. This method also generated a genome-wide 5fC map at single-base resolution. Parallel analyses revealed that 5hmC and 5fC in a non-CpG context exhibit lower abundance, more dynamically, than those in CpG context. In the genic region, distribution of 5hmCpG and 5fCpG differed from 5hmCH and 5fCH (H = A, T, C). 5hmC and 5fC were distributed distinctly at regulatory protein-DNA binding sites, depleted in permissive transcription factor binding sites, and enriched at active and poised enhancers. This sensitive bisulfite conversion-free method can be applied to biological samples with limited starting material or low-abundance cytosine modifications.

Scheme of genome-wide 5hmC or 5fC mapping at single base resolution.