The location of 5S RNA genes in lampbrush polytene chromosomes from Drosophila

Abstract

Drosophila polytene chromosomes were transformed into lampbrush-like structures by exposure to solutions of alkali-urea. In this process, the chromosomes shorten and widen, and the bands (chromomeres) extend laterally into loops leaving a central core between the paired homologues. The expanded polytene chromosomes are very similar in appearance to the true lampbrush chromosomes of amphibian oocytes and to ordinary chromosomes in pachytene. The denaturing effects of alkali-urea were partially counteracted by return of the treated chromosomes to Ringer solution. These observations are interpreted in terms of recent findings on protein backbones in chromosomes, and indicate that chromosomes generally may have very similar basic organization, despite differences due to species, polyteny and degree of condensation. To gain more information on the specific location of a structural gene, 125I-labelled low molecular weight (containing 5S RNA) was hybridized in situ to normal and lampbrush-like polytene chromosomes. Autoradiography showed silver grain distribution for 5S RNA consistent with hybridization primarily to the loop regions of the lampbrush chromosomes rather than the core. This provides further indirect evidence that structural genes like 5S RNA may be located on the bands (chromomeres) and not the interbands of normal polytene chromosomes.