A reliable method to display authentic DNase I hypersensitive sites at long-ranges in single-copy genes from large genomes

The study of eukaryotic gene transcription depends on methods to discover distal cis-acting control sequences. Comparative bioinformatics is one powerful strategy to reveal these domains, but still requires conventional wet-bench techniques to elucidate their specificity and function. The DNase I hypersensitivity assay (DHA) is also a method to identify regulatory domains, but can also suggest their function. Technically however, the classical DHA is constrained to mapping gene loci in small increments of ∼20 kb. This limitation hinders efficient and comprehensive analysis of distal gene regions. Here, we report an improved method termed mega-DHA that extends the range of existing DHAs to facilitate assaying intervals that approach 100 kb. We demonstrate its feasibility for efficient analysis of single-copy genes within a large and complex genome by assaying 230 kb of the human ADAMTS14-perforin-paladin gene cluster in four experiments. The results identify distinct networks of regulatory domains specific to expression of perforin and its two neighboring genes.