Boronic acid-mediated polymerase chain reaction for gene- and fragment-specific detection of 5-hydroxymethylcytosine.

The gene- or fragment-specific detection of newly recognized deoxyribonucleic acid (DNA) base 5-hydroxymethylcytosine (5hmC) will provide insights into its critical functions in development and diseases, and is also important for screening 5hmC-rich genes as an indicator of epigenetic states, pathogenic processes and pharmacological responses. Current analytical technologies for gene-specific detection of 5hmC are heavily dependent on glucosylated 5hmC-resistant restriction endonuclease cleavage. Here, we find that boronic acid (BA) can inhibit the amplification activity of Taq DNA polymerase for replicating glucosylated 5hmC bases in template DNA by interacting with their glucose moiety. On the basis of this finding, we propose for the first time a BA-mediated polymerase chain reaction (PCR) assay for rapid and sensitive detection of gene- or fragment-specific 5hmC without restriction-assay-like sequence limitations. To optimize the BA-mediated PCR assay, we further tested BA derivatives and show that one BA derivative, 2-(2'-chlorobenzyloxy) phenylboronic acid, displays the highest inhibitory efficiency. Using the optimized assay, we demonstrate the enrichment of 5hmC in an intron region of Pax5 gene (a member of the paired box family of transcription factors) in mouse embryonic stem cells. Our work potentially opens a new way for the screening and identification of 5hmC-rich genes and for high throughput analysis of 5hmC in mammalian cells.