A comparative analysis of shotgun-cloning and tagged-random amplification-cloning of chromatin immunoprecipitation-isolated genome fragments.

The cloning of transcription factor antibody-immunoprecipitated genomic fragments from chromatin immunoprecipitation (ChIP) experiments is a technically challenging procedure, especially when the input genomic DNA is isolated from whole tissues (in vivo) rather than cultured cells. Here we adapt a technique known as Tagged-Random PCR (T-PCR) to amplify ChIP-immunoprecipitated DNA from mouse embryonic tissue prior to cloning. Importantly, we then compare this technique with tandem shotgun-cloning experiments in terms of its capacity to identify target genes. We find that T-PCR dramatically increases the efficiency of cloning ChIP fragments without distortion of the relative location of cloned fragments to putative target genes. Thus, T-PCR is a simple procedure which greatly enhances the efficiency of cloning tissue-derived ChIP fragments.