Dissection of open chromatin domain formation by site-specific recombination in Drosophila

Drosophila polytene interphase chromosomes provide an ideal test system to study the rules that define the structure of chromatin domains. We established a transgenic condensed chromatin domain cassette for the insertion of large pieces of DNA by site-specific recombination. Insertion of this cassette into open chromatin generated a condensed domain, visible as an extra band on polytene chromosomes. Site-specific recombination of DNA sequence variants into this ectopic band allowed us to compare their capacity for open chromatin formation by cytogenetic methods. We demonstrate that the 61C7-8 interband DNA maintains its open chromatin conformation and epigenetic state at an ectopic position. By deletion analysis, we mapped the sequences essential for open chromatin formation to a 490-bp fragment in the proximal part of the 17-kb interband sequence. This fragment overlaps binding sites for the chromatin protein Chriz (also known as Chro), the histone kinase Jil-1 and the boundary element protein CP190. It also overlaps a promoter region that locates between the Rev1 and Med30 transcription units.