The binding of the alpha subunit of protein kinase CK2 and RAP74 subunit of TFIIF to protein-coding genes in living cells is DRB sensitive.

In a previous report, we documented that a major portion of the nuclear protein kinase CK2alpha (CK2alpha) subunit does not form heterooligomeric structures with the beta subunit, but it binds tightly to nuclear structures in an epithelial Chironomus cell line. We report here that the CK2alpha, but not beta, subunit is co-localized with productively transcribing RNA polymerase II (pol II) on polytene chromosomes of Chironomus salivary gland cells. Likewise, the RAP74 subunit ofTFIIF, a potential substrate for CK2, is co-localized with pol II.

Heat-shock-specific phosphorylation and transcriptional activity of RNA polymerase II.

The carboxyl-terminal domain (CTD) of the largest RNA polymerase II (pol II) subunit is a target for extensive phosphorylation in vivo. Using in vitro kinase assays it was found that several different protein kinases can phosphorylate the CTD including the transcription factor IIH-associated CDK-activating CDK7 kinase (R. Roy, J.

Phosphorylation dependence of the initiation of productive transcription of Balbiani ring 2 genes in living cells.

Using polytene chromosomes of salivary gland cells of Chironomus tentans, phosphorylation state-sensitive antibodies and the transcription and protein kinase inhibitor 5,6-dichloro-1-beta-D-ribofuranosylbenzimidazole (DRB), we have visualized the chromosomal distribution of RNA polymerase II (pol II) with hypophosphorylated (pol IIA) and hyperphosphorylated (pol II0) carboxyl-terminal repeat domain (CTD). DRB blocks labeling of the CTD with 32Pi within minutes of its addition, and nuclear pol II0 is gradually converted to IIA; this conversion parallels the reduction in transcription of protein-coding genes. DRB also alters the chromosomal distribution of II0: there is a time-dependent clearance from chromosomes of phosphoCTD (PCTD) after addition of DRB, which coincides in time with the completion and release of preinitiated transcripts.

The salivary gland 42-kDa phosphoprotein is a single-stranded DNA-binding protein with characteristics of the epithelial casein kinase N42 in Chironomus tentans.

The DNA-binding and phosphorylation properties of a rapidly phosphorylated nuclear 42-kDa phosphoprotein and of its two structurally related proteins, pp43 and pp44 in Chironomus tentans salivary glands were investigated. pp42, pp43 and pp44 bind promoter probes of the ecdysterone controlled I-18C gene and of the joint histone H2A/H2B genes in a sequence-selective and single-stranded DNA (ssDNA) specific manner. Rapid phosphorylation appears to give pp42 and pp43 uniquely hydrophilic characters making them soluble in the aqueous phase during phenol treatment.

Analysis of a novel DNA-binding protein kinase CKII-like enzyme of Chironomus cells.

We have previously described a Chironomus tentans nuclear 42 kDa phosphoprotein preferentially associated with transcriptionally active chromatin. In an attempt to purify and identify the kinase responsible for the phosphorylation of the 42 kDa protein, a casein-phosvitin affinity chromatography was used. Unexpectedly, in the eluted kinase fraction, a novel 42 kDa casein kinase, designated protein kinase CK42, with a kinase activity similar, but not identical, to protein kinase CKII, could be identified.

A majority of casein kinase II alpha subunit is tightly bound to intranuclear components but not to the beta subunit.

Nuclear casein kinase II (CK II) was purified from an epithelial cell line of Chironomus tentans and characterized. The intracellular distribution of CK II and its two intracellular subunits (alpha and beta) was analysed by immunoblotting. The apparent molecular weights of the alpha and beta subunits were estimated to be 36 and 28 kDa, respectively.

Analysis of the structural relationships between the DNA-binding phosphoproteins pp42, pp43 and pp44 by in situ peptide mapping.

A structural homology is established between three DNA-binding phosphoproteins located in the 42 to 44 kDa range, referred to as pp42, pp43 and pp44, from Chironomus tentans salivary gland cells by in situ peptide mapping. The staining patterns of pp42, pp43 and pp44 which resulted from digestion with Staphylococcus aureus V8, trypsin or papain proteases show the presence of 8 to 15 spots majority of which have identical mobility. In the patterns of the digests generated by treatments with trypsin about 10 spots appear in common between any pair of the protein substrates.

The rapidly phosphorylated chromosomal 42-kDa protein is a subunit of larger protein complexes.

We have isolated, purified and characterized a 42-kDa phosphoprotein which has been found to be preferentially associated with active gene loci of salivary gland cells of Chironomus tentans. The rapidly phosphorylated form of this protein could be extracted with 0.2 M NaCl.

Effects of a DNA helix-destabilizing protein on transcription in living cells.

The effects of microinjected rat DNA helix-destabilizing protein (HDP) and anti-HDP sera on the transcription of various RNAs in nuclei of Chironomus tentans salivary gland cells were investigated. The results showed that injected antisera have the greatest inhibitory effect on the RNA polymerase II-based transcription of Balbiani ring puffs, about 80%. The inhibition of RNA polymerase I-based transcription of nucleolar preribosomal RNA was about 70%, while the effect on the heterogenous nuclear RNA (hnRNA) from chromosome I to III was about 40%.

Effects of anti-C23 (nucleolin) antibody on transcription of ribosomal DNA in Chironomus salivary gland cells.

Protein C23 (also called nucleolin or 100-kDa nucleolar protein) is a major nucleolar phosphoprotein involved in ribosome biogenesis. To determine the effects of protein C23 on preribosomal RNA (pre-rRNA) synthesis anti-C23 antiserum was microinjected into nuclei of Chironomus tentans salivary glands. Transcription was measured by incubation of the glands with 32P-labeled RNA precorsors followed by microdissection of nucleoli, RNA extraction, and electrophoretic analyses.

Selective repression of RNA polymerase II by microinjected phosvitin.

We have used a microinjection technique to examine whether injected phosvitin, in its capacity as substrate for casein kinase NII, could compete out the endogenous phosphorylation of some nuclear phosphoproteins with regulatory potential and thereby interfere with the activity of RNA polymerase II. Phosphorylation, which utilizes ATP as phosphate donor, was separated from phosphorylation which uses GTP. Phosvitin introduced into nuclei of salivary gland cells becomes phosphorylated by the endogenous nuclear protein kinase(s) and incorporates phosphates from ATP as well as from GTP.

Phosphorylation of some chromosomal nonhistone proteins in active genes is blocked by the transcription inhibitor 5,6-dichloro-1-beta-D-ribofuranosylbenzimidazole (DRB).

The distribution of rapidly phosphorylated chromosomal proteins between chromosome I, chromosome II + III, chromosome IV, and nuclear sap including the matrix was investigated in salivary gland cells of Chironomus tentans. Chromosome IV, which carries most active nonribosomal genes in the cell, was found to be enriched in four rapidly phosphorylated nonhistone polypeptides (Mr = 25,000, 30,000, 33,000, and 42,000) in parallel with the transcriptional activity rather than with the DNA content of the chromosome. Also the histones H2A and H4 are rapidly phosphorylated but the phosphorylation is proportional to the DNA content of each chromosome sample.

Rapidly phosphorylated histone-like proteins are modulated in the course of transcription block by 5,6-dichloro-1-beta-D-ribofuranosylbenzimidazole.

A putative histone H2A and H4 protein with posttranslationally added and covalently linked phosphate group(s) have been found in salivary gland cells of Chironomus tentans. The phosphate moieties possess a rapid turnover rate and the incorporation of 32P reaches steady-state level within 5 to 10 min of incubation. The H2A-like protein incorporates twice as much label as the H4-like one.

Growth-affecting activity of cellular microexudate of Acanthamoeba.

Cells of Acanthamoeba castellanii release microexudates into the culture medium. The precursor material of the microexudates can be separated into four fractions on the basis of their solubility. One of these fractions carries a growth inhibitor, which is normally neutralized by other components of the precursor.

Sequences translated by Balbiani ring 75S RNA in vitro are present in giant secretory protein from Chironomus tentans.

The 75S RNA originating in the large Balbiani rings 1 and 2 (BRI and 2) was isolated and used for in vitro translation in the mRNA dependent reticulocyte lystate. Conditions (K+-concentration, temperature, time etc). were optimized for obtaining translation products of maximal size.

Cephalic mechanism for social control of fissioning in planarians: III. Central nervous system centers of facilitation and inhibition.

Previous studies have indicated that asexual reproduction (fissioning) in the planarian Dugesia dorotocephala is socially controlled through a cephalic mechanism: Isolation releases fissioning; grouping inhibits it; decapitation, at the level of the auricles, releases it even in grouped subjects. The brain is not necessary for programming the actual events of fissioning; these are orchestrated by the segmental plexus fissioning (SPF) system. Various surgical cuts were made to ablate selected portions of the central nervous system of isolated and grouped planarians in order to ascertain the inhibitory or facilitatory effects of these in the physiological mediation of such control on the SPF system.

Fissioning in planarians: control by the brain.

Reduced population densities lead to increased rates of fissioning in planarians whereas higher population densities suppress fissioning. This effect is not primarily due to mucus deposition or substances secreted into the water. Experiments are presented which show a system of population feedback control.