Structural features of 3C6/C7 interband chromatin organization in Drosophila melanogaster polytene chromosomes

Abstract

Mechanisms of chromatin decompaction in interbands of Drosophila polytene chromosomes have been studied. Using the example of interband 3C6/C7 of the X chromosome, we investigated the ability of different DNA segments to form an interband in a new genetic environment. We applied site-specific FLP recombination between two transposons with FRT-sites that allows introducing the DNA fragments from the interband 3C6/C7 into pICon(dv) transposon located in cytologically well-characterized 84F region of chromosome 3 followed by electron microscopic analysis of changes in the region caused by insertion of the DNA fragments into the transposon. It was shown that the insertion of a 276-bp DNA fragment from the 3C6/C7 region into the pICon(dv) transposon leads to the formation of a new interband between two thin bands represented by the transposon material. This DNA fragment is the known minimal sequence that is necessary and sufficient for interband generation. In addition, the sequence containing three copies repeated in tandem of 0.9 kb DNA from the interband 3C6/C7, including the 276-bp fragment, were integrated in the transposon. The presence of introduced DNA fragments did not change the morphology of the resulting interband. It was shown that the sites of DNase I hypersensitivity were saved in transposon sequences introduced into a new genetic environment. The data obtained allow analysis to be started of specific factors (proteins, DNA motifs, etc.) that determine the formation of decompacted chromatin in a certain interband region and chromomeric organization of interphase chromosomes in Drosophila as a whole.