Synthesis of nucleic acids in giant chromosomes

Features of in vitro puffing and RNA synthesis in polytene chromosomes of Chironomus

In order to elucidate the causal relation between RNA synthesis and puffing in polytene chromosomes, salivary gland nuclei and chromosomes from Chironomus tentans and C. pallidivittatus (Diptera, Chironomidae) were isolated in the native state under controlled and optimized conditions. The behavior of the polytene chromatin in vitro as compared to that in vivo was studied morphologically and autoradiographically. It was shown that the absence of cytologically visible puffing does not necessarily indicate transcriptional quiescence. Under suitable conditions all potential puff sites incorporate the radioactive precursor simultaneously. This can be seen in vivo and even more clearly in chromosomes decondensed by 340-400 mM NaCl in vitro. Potential puff sites therefore appear to be permanently equipped with RNA-polymerases, and there is always a basic low level of transcriptive activity. Experimental shrinking of Balbiani rings and other puffs by dimethylsulfoxide (DMSO) or heat shock in vivo, leaves the genes in the collapsed puffs still transcriptionally active, although to a reduced extent. Light optically visible puffing is therefore not a necessary prerequisite for RNA synthesis, while, conversely, RNA synthesis is required for puff formation.

Cellular and secretory proteins of the salivary glands of Sciara coprophila during the larval-pupal transformation

The cellular and secretory proteins of the salivary gland of Sciara coprophila during the stages of the larval-pupal transformation were examined by electrophoresis in 0.6 mm sheets of polyacrylamide gel with both SDS-continuous and discontinuous buffer systems. After SDS-electrophoresis, all electrophoretograms of both reduced and nonreduced proteins from single glands stained with Coomassie brilliant blue revealed a pattern containing the same 25 bands during the stages of the larval-pupal transformation. With the staining procedures used in this study, qualitative increases and decreases were detected in existing proteins and enzymes. There was no evidence, however, for the appearance of new protein species that could be correlated with the onset of either pupation or gland histolysis. Electrophoretograms of reduced samples of anterior versus posterior gland parts indicated that no protein in the basic pattern of 25 bands was unique to either the anterior or posterior gland part. Electrophoretograms of reduced samples of secretion collected from either actively feeding or "cocoon"-building animals showed an electrophoretic pattern containing up to six of the 25 protein fractions detected in salivary gland samples, with varied amounts of these same six proteins in electrophoretograms of secretion samples from a given stage. Zymograms of non-specific esterases in salivary gland samples revealed a progressive increase in the amount of esterase reaction produce in one major band and some decrease in the second major band during later stages of the larval-pupal transformation.