RNA synthesis in isolated polytene nuclei from Chironomus tentans

An RNA synthesizing system with isolated polytene nuclei from Chironomus tentans is described. This system allows one to monitor the effect of salt concentration on chromosome structure and to assign in vitro RNA synthesis to structural modifications of the chromosome (i.e. nucleoli, Balbiani rings and puffs).-At a salt concentration of 0.15 M monovalent cations (standard salt medium=SSM) chromosomal structure appears to be best preserved during in vitro incubation. At low and high ionic strength the bands decondense and the microscopically visible chromosomal structure is lost completely. These three states of condensation and decondensation are distinguished with respect to RNA synthesis: (1) in low salt overall RNA synthesis is depressed, (2) in SSM ribosomal RNA synthesis predominates and continues for 30 min, (3) in high salt RNA synthesis is stimulated 3–4 fold again. This stimulation is due solely to chromosomal, non-ribosomal RNA synthesis, which proceeds in high salt for more than 10 h, though new initiation of RNA chains is prevented. Molecular weight determinations of the RNA synthesized demonstrate a time dependent increase in size of the newly synthesized molecules under these conditions. — Autoradiographs of nuclei incubated in SSM reveal prominent label in nucleoli, significant label in Balbiani rings and rather reduced activity at other sites. Addition of various exogenous RNA polymerases does not markedly alter this pattern. Autoradiographs of nuclei incubated in high salt exhibit extensive RNA synthesis spread over the chromosomes. Preparations of autoradiographs from isolated chromosomes show that the high salt induced label is localized in single bands. Though the majority of bands is still unlabelled, the actual number of bands exhibiting incorporation in high salt is higher than in any individual functional state in vivo. These results are discussed in terms of activated and preactivated genes.