Histone Modification Analysis of Low-Mappability Regions.

Posttranslational modifications of histone are intimately related to chromatin/chromosome-mediated cellular events. Among all, the roles of histone modifications including acetylation, methylation, ubiquitination, and SUMOylation of lysine or arginine residue of nucleosome core histones in gene expression have been intensively studied. Genome-wide profiles of histone modification marks revealed their combinatorial organization in the functional features of chromatin. Analysis of histone modification by chromatin immunoprecipitation (ChIP) is one of the standard assays to examine chromatin states. Although high-throughput sequencing analysis (ChIP-seq) is now widely conducted, classical ChIP-qPCR analysis has advantages in investigation of multiple histone modification marks at a target site simply through the use of relatively small numbers of cells. Since ChIP-qPCR is devoid of biases caused by overamplification and inaccurate mapping of sequencing reads, it is a more reliable quantification method than genome-wide ChIP-seq especially for analyses of the low-mappability regions, which harbor many repetitive sequences and/or highly homologous segmental multiplications as found in gene clusters. We have recently analyzed histone H3 and H4 modifications of the Zscan4 family gene loci in an 880 kb gene cluster and found that the atypical enhancer-like structure is formed upon derepression of Zscan4. In this chapter, we describe the detailed protocols for histone modification ChIP-assay of repeat-enriched gene cluster regions. The protocol here we applied to mouse ES cells, but the protocol is perfectly applicable to human cultured cells and specimens.