Requirement of protein and RNA synthesis for lambda repressor inactivation by tif-1: effects of chloramphenicol, neomycin and rifampicin.

Summary The inactivation of repressor was followed by the specific DNA binding assay during the course of lysogenic induction provoked by incubation at 42°C of an E. coli tif-1 lysogenic strain. The presence of up to 400 g/ml chloramphenicol during the inducing treatment did not impair the loss of repressor binding activity, whilst concentrations of 200 g/ml neomycin and 100 g/ml rifampicin effectively inhibited the inactivation of repressor.Residual protein synthesis in the presence of chloramphenicol, neomycin and rifampicin was 5%, 5% and 27% respectively of that observed in the drug-free control. This residual synthesis did not appear to involve amplification of the X-protein. These results suggest that tif-mediated inactivation of the repressor requires the activation of some specific gene(s), the translation of which appears to be resistant to chloramphenicol.     

Restriction endonuclease analysis of ribosomal DNA from Saccharomyces cerevisiae

Summary Temperature-sensitive mutants of Escherichia coli that are unable to grow at high temperature can be obtained among those selected for resistance to streptovaricin or rifampicin at low temperature (Yura et al., 1970). One of these mutants (KY5323) that was supposed to carry a single mutation affecting both rifampicin resistance and temperature sensitivity was further investigated. Using purified RNA polymerase preparations obtained from the mutant and the wild type, it was found that the activity for DNA chain elongation is more sensitive to heat treatment than that for RNA chain initiation or DNA binding, and that the mutant enzyme is significantly more labile than the wild-type enzyme with respect to RNA chain elongation, when heat treatment is carried out at high salt concentration. These results, taken together with those of the enzyme reconstitution experiments, strongly suggest that the subunit of the polymerase is directly involved in both RNA chain initiation and elongation reactions. Enzyme reconstitution experiments using isolated subunits derived from the mutant and the wild-type polymerases demonstrate that the alteration of subunit is primarily responsible for both rifampicin resistance and thermolability of the mutant enzyme. In addition, the results suggested the apparent alteration of both and subunits in this mutant. Extensive transduction experiments provided genetic evidence that are consistent with the view that the strain KY5323 carries a second mutation affecting the subunit, beside the primary mutation affecting the subunit. The hypothetical subunit mutation seems to modify quantitatively the rifampicin resistance caused by the subunit mutation.     

Phosphorylation Sites Within α4 Subunits of α4β2 Neuronal Nicotinic Receptors: A Comparison of Substrate Specificities for cAMP-Dependent Protein Kinase (PKA) and Protein Kinase C (PKC)

The present study determined whether putative phosphorylation sites within the M3/M4 cytoplasmic domain of the human 4 subunit of 42 neuronal nicotinic receptors are substrates for cAMP-dependent protein kinase (PKA) or protein kinase C (PKC). Five peptides corresponding to predicted phosphorylation sequences were synthesized, and phosphorylation was compared with standard peptide substrates for each kinase, that is, Kemptide for PKA and glycogen synthase (GS) 1-8 for PKC. VRCRSRSI had the highest affinity for PKA, with a Km of 44.5 M; Kemptide had a Km of 7.7 M. LMKRPSVVK and KARSLSVQH were also phosphorylated by PKA, but had lower affinities of 593 M and 2896 M, respectively. LMKRPSVVK had the highest affinity for PKC with a Km of 182 M; GS 1–8 had a Km of 2.1 M. VRCRSRSI had a comparative affinity for PKC with a Km of 327 M. PCKCTCKK was not phosphorylated by PKA, but was a substrate for PKC with a Km of 1392 M, whereas PGPSCKSP was not phosphorylated by either kinase. Based on these findings, results suggest that Ser-362 and Ser-486 on the human 4 subunit may be phosphorylated by either PKA or PKC, Ser-467 is a putative PKA site, and Thr-532 represents a likely PKC substrate; Ser-421 does not appear to be phosphorylated by either kinase.     

Clonal propagation of Callistemon by tissue culture techniques

Callus development in Callistemon viminalis was readily achieved when axillary buds derived from nodal tissue were placed in a medium containing macro- and micro-nutrients, sucrose (0.06 M), inositol (300 M), nicotinic acid (20 M), pyridoxine hydrochloride (3 M), thiamine hydrochloride (2 M), riboflavin (10 M), cytokinins (5 M) and auxins (0.1 M). The presence of benzylaminopurine (5 M) and p-chlorophenoxyacetic acid (0.1 M) promoted the most vigorous callus development and sprout formation. Rooting of nodal material was rare but occurred readily following the transference of sprouts developed on callus to a basal medium containing sucrose and salts. Root initiation was stimulated, however, by the presence of auxins. Chlorophenoxyacetic acid while stimulating root initiation repressed root growth. Indole butyric acid stimulated both root initiation and shoot growth at concentrations of 0.005 to 0.1 M. The treatment of choice for rooting and shoot growth was the addition of indole butyric acid at a concentration of 0.01 M.     

Chromatographic separation of DNA dependent RNA polymerases and molecular properties of RNA polymerase II from a Leishmania Spp

Multiple forms of DNA-dependent RNA polymerases have been isolated and characterized from Leishmania strain UR6 promastigotes. RNA polymerases from this organism fail to resolve into multiple forms by conventional chromatography on DEAE-Sephadex A25, but could be separated by a modification of the method using CM-Sephadex C25. The CM-Sephadex bound enzyme is resistant toamanitin even up to a concentration of 250g/ml. The activity which flows through CM-Sephadex further resolves into two forms upon chromatography on DEAE-Sephadex A25. These forms are sensitive to -amanitin to different extent. Enzyme activity in peak I is 50% inhibited by 3g/ml and in peak II by 50g/ml of the drug respectively. The enzyme in peak I has been further purified by heparin agarose and fast performance liquid chromatography (FPLC) on MonoQ. The enzyme has Stoke's radius of 70å, a sedimentation coefficient of 17.6S and an f/fo of 1.35. Analysis of ammonium sulfate and met n peak I, relative activities with Mn+2 versus Mg+2 and template specificities gave results similar to those reported for other type II RNA polymerases in eukaryotes. The MonoQ purified enzyme resolves into 16 polypeptides on denaturing polyacrylamide gel and densitometric analysis suggests that 9 major bands are present in the stoichiometry expected of RNA polymerase subunits having molecular weights: 154000; 104000; 77000; 64000; 52000; 48000; 46000; 45000 and 39000 respectively.     

6-Methylpurine-induced inhibition of sclerotia morphogenesis in Sclerotium rolfsii and its reversal by adenosine

In liquid synthetic medium inoculated with Sclerotium rolfsii (SR), addition of 6-methylpurine (MP, 50g/ml) immediately after inoculation led to approximately 100% reduction in sclerotia production. Adenosine, and to a lesser extent guanosine, each at final concentration of 100g/ml significantly reduced inhibition of sclerotia formation by SR in presence of 50g/ml MP. Uridine and cytidine each at 100g/ml had no such effect. The inhibition of sclerotia morphogenesis could be prevented by addition of 800g/ml of adenosine together with 50g/ml MP. Reversal by adenosine of MP-induced inhibition of sclerotia development was concentration dependent.     

Murein and lipopolysaccharide biosynthesis in synchronized cells of Escherichia coli K 12 and the effect of penicillin G,mecillinam and nalidixic acid

The incorporation of radioactive N-acetylglucosamine into murein and lipopolysaccharide of synchronized cells of Escherichia coli K 12 was followed over 100 min in the presence of antibiotics. At 20 min intervals cell walls were prepared. Lipopolysaccharide and murein sacculi were isolated and the radioactivity was quantified in both polymers. Labelled, newly synthesized murein was characterized according to murein subunits linked to lipoprotein, and the degree of crosslinkage. Furthermore, murein subunits containing anhydromuramic acid were determined, permitting the calculation of the average glycan chain length. The results indicated that penicillin G at 30 g/ml stimulated the incorporation of new murein subunits into sacculi followed by a sudden increase in lipopolysaccharide incorporation into the outer membrane. The degree of crosslinkage in murein synthesized in the presence of 30 g/ml penicillin G was higher than in the control, and almost twice as high as in murein synthesized in the presence of 20 g/ml nalidixic acid. Both antibiotics inhibited cell division at the concentrations indicated. Murein synthesized in the presence of 2 g/ml mecillinam also showed higher crosslinkage. However, about twice as much anhydromuramic acid-containing subunits were observed as in the control. At the same time lipopolysaccharide incorporation into the outer membrane was stimulated two- to three-fold.Abbreviation GlcNAc N-acetylglucosamine     

Inhibition of Cytophaga U67 gliding motility by inhibitors of polypeptide synthesis

Gliding motility of Cytophaga U67 and several other cytophagas was inhibited by a growth-permissive concentration of chloramphenicol (50 g/ml). Several other inhibitors of polypeptide synthesis also demonstrated this effect. Short-term exposure to several of these inhibitors resulted in reversible inhibition of gliding by growing cells. In wet mounts chloramphenicol-grown cells demonstrated non-translocational tumbling. Electrophoretic patterns of polypeptides released by ethylenediaminetetraacetate treatment of control and chloramphenicol-grown cells were distinct. Gliding of a spontaneous mutant was resistant to chloramphenicol at 50 g/ml; its motility was inhibited at the growth-permissive concentration of 400 g/ml.     

Die Schwellen der Hemmung der Nucleinsäuresynthese und der Teilung durch Actinomycin bei Tetrahymena pyriformis

Zusammenfassung An synchronen Kulturen von Tetrahymena pyriformis Stamm HSM, die man durch Auswählen von Tieren gleichen Teilungsstadiums erhält, wurde die Wirkung unterschiedlicher Konzentrationen von Actinomycin auf verschiedene Vorgänge des Teilungszyklus untersucht. 0,1 g Actinomycin/ml Medium und geringere Konzentrationen haben keinen deutlichen Effekt auf die RNS-Synthese (Auszählung von Silberkörnern in der Autoradiographie). Bei höheren Konzentrationen bis zu 3 g/ml wird die RNS-Synthese bis auf ca. 10 % unterdrückt. Die Stärke der Hemmung ist konzentrationsabhängig. 0,5 g/ml hemmt die Zellteilung völlig, wenn der Hemmstoff spätestens 70 min vor der nächsten Zellteilung gegeben ist. Bei diesen Konzentrationen ist die DNS-Synthese im Makronucleus noch möglich. Diese wird vielmehr erst durch 5 g/ml vollständig gehemmt. Diese Ergebnisse weisen darauf hin, daß die Teilung von der RNS-Synthese abhängig ist, während für eine direkte Abhängigkeit der DNS-Synthese von der Nachlieferung von RNS keine Anzeichen vorliegen.

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Summary The effect of different concentrations of actinomycin on division, RNA synthesis, and DNA synthesis was studied in synchronous cultures of Tetrahymena pyriformis strain HSM. Synchronous cultures were obtained by selecting cells which were all in the same division phase. 0,1 g actinomycin per ml of medium and lower concentrations reveal no significant effect on RNA synthesis as shown by counting silver grains over the macronucleus after application of H³-uridine. Higher concentrations up to 3 g/ml inhibit RNA synthesis to 10 % of the normal intensity. Cell division is blocked completly by 0,5 g/ml, provided the inhibitor is given not later than 70 min prior to the next division. This concentration however is not sufficient to block DNA synthesis. The minimum concentration for complete suppression of DNA synthesis is 5 g/ml. These results demonstrate that cell division is depending on RNA synthesis while there are no indications that the synthesis of DNA depends directly on the production of RNA.

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Unterstützt durch Sachbeihilfen der Deutschen Forschungsgemeinschaft.

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Ich danke Frl. M. Sippel für wertvolle Mitarbeit, Herrn Dr. D. M. Prescott, Denver, Colorado, USA, für kritische Durchsicht des Manuskripts.     

Die Wirkung von Rifampicin auf die RNA- und Proteinsynthese sowie die Morphogenese und den Chlorophyllgehalt kernhaltiger und kernloser Acetabularia-Zellen

Summary Rifampicin (10g/ml) strongly inhibits the incorporation of [5-³H]-uridine into the chloroplast RNA of anucleate cells of the green alga Acetabularia mediterranea, whereas incorporation into nuclear RNA is hardly affected.Furthermore, at a concentration range of 1–10g/ml rifampicin has only a small effect on stalk- and cap formation in nucleate posterior parts of the stalk. As has already been shown, the morphogenesis of such cell segments depends on the synthesis of new RNA in the nucleus. Similarly rifampicin only slightly inhibits the synthesis of the enzyme UDPG-pyrophosphorylase, which is coded by nuclear DNA.These slight inhibitions are interpreted as secondary effects arising from a blockage of plastid RNA synthesis, since both nucleate and anucleate cells respond in a similar manner and to the same degree.In contrast the increase in the chlorophyll content in nucleate and anucleate cells is severely impaired by the antibiotic. These findings indicate that the nucleus and the plastids contain different DNA-dependent RNA-polymerases.     

The Effect of Phenylalanine on DOPA Synthesis in PC12 Cells

DOPA synthesis from phenylalanine was studied in PC12 cells incubated with m-hydroxybenzylhydrazine, to inhibit aromatic L-amino acid decarboxylase. DOPA synthesis rose with increasing concentrations of either phenylalanine or tyrosine; maximal rates (~55 pmol/min/mg protein for tyrosine; ~40 pmol/min/mg protein for phenylalanine) occurred at a medium concentration of ~10 M for either amino acid. The K_m for either amino acid was about 1 M (medium concentration). At tyrosine concentrations above 30 M, DOPA synthesis declined; inhibition was observed at higher concentrations for phenylalanine (300 M). These effects were most notable in the presence of 56 mM potassium. Measurements of intracellular phenylalanine and tyrosine suggested the K_m for either amino acid is 20–30 M; maximal synthesis occurred at 120–140 M. In the presence of both phenylalanine and tyrosine, DOPA synthesis was inhibited by phenylalanine only at a high medium concentration (1000 M), regardless of medium tyrosine concentration. The inhibition of DOPA synthesis by high medium tyrosine concentrations was antagonized by high medium phenylalanine concentrations (100, 1000 M). Together, the findings indicate that for PC12 cells, phenylalanine can be a significant substrate for tyrosine hydroxylase, is a relatively weak inhibitor of the enzyme, and at high concentrations can antagonize substrate inhibition by tyrosine.     

The effect of cycloheximide on Euglena gracilis phenylalanyl-tRNA synthetases

The effect of cycloheximide on the chloroplastic, cytoplasmic and mitochondrial phenylalanyltransferRNA synthetases of Euglena gracilis was studied by growing both logarithmic and stationary phase cultures in the presence of the antibiotic. Enzyme activity was measured relative to untreated control cultures. At very low concentrations of cycloheximide (1 g/ml), all three log phase enzymes showed an increase in activity of 40–50%. At slightly higher concentrations (2.5 g/ml), the phenylalanyl-tRNA synthetase activities were comparable to those of the control cultures. At a cycloheximide concentration of 5g/ml the enzyme activities from stationary phase cultures showed only very slight decreases (5–20%). The cytoplasmic and mitochondrial enzymes behaved similarly in log phase cultures at this concentration. However, the chloroplastic phenylalanyl-tRNA synthetase from log phase cultures treated with 5g/ml cycloheximide showed a marked decrease in activity (70%). A further increase in antibiotic concentration to 10g/ml resulted in significant losses of activity of all three enzymes, from both growth stages. The implications of the data with regard to identification of the site(s) of chloroplast enzyme synthesis are discussed.     

Heat shock response in Escherichia coli promotes assembly of plasmid encoded RNA polymerase beta-subunit into RNA polymerase

Summary Escherichia coli cells, carrying a rifampicin sensitive RNA polymerase -subunit gene in the chromosome and a rifampicin resistant -subunit gene placed under the control of a strong promoter in a multicopy plasmid, are unable to grow in the presence of rifampicin, despite the accumulation of large quantities of the resistant subunit. A major portion of the overproduced subunit is found in an insoluble form. Conditions known to induce the heat shock proteins (hsps), e.g. elevated temperature or the presence of ethanol in the growth medium, increase the amount of the plasmid-borne -subunit which apparently assembles into active RNA polymerase and makes the plasmid bearing cells rifampicin resistant. Alternatively, plasmid-borne subunits assemble into RNA polymerase with low efficiency in rpoH mutant cells known to have reduced level of hsps. We suggest that the plasmid-borne subunit is poorly assembled into RNA polymerase and that hsps promote the assembly by interfering with -subunit aggregation.     

The influence of mutations upon the synthesis of RNA polymerase subunits in Escherichia coli cells

Summary The influence of mutations in structural genes of and subunits of RNA polymerase upon the synthesis of these subunits in E. coli cells have been investigated. An amber-mutation ts22 in the subunit gene decreases the intracellular concentration of this subunit and the rate of its synthesis. At the same time the concentration and the rate of subunit synthesis is increased. These suggest the compensatory activation of the RNA polymerase operon that takes place under the conditions of shortage of one of the subunits. Reversions, as well as more effective supression of ts22 amber mutation, achieved by streptomycin addition, substitution of su2 by su1, or by specific mutations, result in a rise of and drop of subunit concentration and synthesis in ts22 mutant. TsX missense-mutation in the subunit gene alters the properties of the enzyme increasing, at the same time, the concentration and the rate of synthesis of both and subunits, particularly at a nonpermissive temperature. This points to an inversely proportional relationship between the rate of synthesis of RNA polymerase subunits and the total intracellular activity of the enzyme. Extra subunits are rapidly degraded in ts22 and tsX mutants.The whole complex of our data and those of others suggest that the regulation of the synthesis of RNA polymerase subunits is accomplished by interaction of a negative and a positive mechanisms of regulation which include not only activators and repressors but the enzyme itself as well.     

A combined micro-and semi-micro colorimetric determination of long-chain fatty acids from plant cutin

Summary Re-examination of the colorimetric fatty acid determination with copper nitrate, followed by complex formation with DIECA has shown that the method is not reliable if applied as described by Duncombe (1962, 1963): The Cu concentration is too high, the DIECA concentration much too low and the wavelength chosen (440 m) is suitable only for very low fatty acid concentrations.According to the results reported here the following alterations have to be adopted: The concentration of the copper nitrate solution should be 3%, a 0.5% solution of DIECA in butanol has to be used and measurements should be done at 492 m. The method described here offers the opportunity to determine fatty acid concentrations in the semi-micro range by measuring the filtered chloroform phase directly at 691 m, covering a range between 175 g/ml to 1.2 mg/ml. If the concentration turns out to be lower than 200 g F. A./ml, the same sample can be used for a micro-determination (up to 200 g/ml) at 492 m, after formation of the yellowish-brown complex by addition of 0.1 ml 0.5% butanolic DIECA solution to 1.0 ml of the chloroform phase.The method has been applied to determine the amount of free F. A. in cutin layers and cutin powder, revealing that the latter contains 5.6 times more free F. A. than the intact material. The free F. A. within the polymer seem to serve as interconnections for the main units of the cutin polylipid.     

The effects of Tunicamycin and 2-deoxy-D-glucose on the development ofXenopus laevis embryos

Summary Tunicamycin and 2-deoxy-D-glucose were applied toXenopus laevis embryos in the first cleavage furrow, blastula and early gastrula stages. No effect was observed with 2-deoxy-D-glucose up to the concentration 0.1 M. The effect of Tunicamycin is dose- and stage-dependent. At the concentration of 5 g/ml cleaving embryos are arrested at the onset of gastrulation and their cells exhibit decreased intercellular adhesivity, while embryos treated in the blastula and early gastrula stages may develop up to the late neurula and tail-bud stage, respectively. Higher concentrations (up to 20 g/ml) drastically affect cleavage. Concentrations of 4 to 1 g/ml allow embryos to develop up to more advanced stages; however, developmental defects are the rule. Concentrations of less than 1 g/ml do not affect development.     

In vitro propagation of Asparagus maritimus – A rare Mediterranean salt-resistant species

Asparagus maritimus L. Miller is a rare species growing of the Mediterranean region and is morphologically similar to A. officinalis. In order to establish an efficient in vitro propagation protocol, explants were excised from spear segments and cultured on Murashige and Skoog (1962) medium containing 3% sucrose and various concentrations of growth regulators. The best shoot initiation (3–4 per explant) was achieved on a medium containing 0.88 M N⁶-benzyladenine (BA), 0.93 M kinetin, 1.07 M -naphthaleneacetic acid (NAA) and 3.90 M ancymidol. Shoot initiation could also be achieved without ancymidol but the shoots were thinner and longer. A very high shoot multiplication rate was achieved on media supplemented with 3% sucrose, 1.07 M NAA, 0.93 M kinetin, 0.44 M BA and various concentrations of ancymidol. The lowest concentration of ancymidol (0.39 M) significantly promoted the highest shoot multiplication rate (11.9 shoots/crown). For root formation, media were supplemented with 6% sucrose, 1.07 M NAA and various concentrations of ancymidol. Rooting frequency increased with higher ancymidol concentration up to 5.07 M (82.0% rooting). The number of ex vitro shoots formed was strongly correlated (r=0.66) with the length of roots formed in vitro, which was the highest at a 1.95 M ancymidol.     

Variations in the rate of synthesis of beta and beta'' RNA polymerase polypeptides under the influence of certain factors.

Summary In merodiploid cells containing a double dose of structural genes of RNA polymerase subunits-rpoBand rpoC-the rate of and subunits synthesis is 2 times higher than in haploidcells. Missence mutation rpoC1 (tsX) alters polypeptide and inducesthe and subunits synthesis at increased rate, particularly at a nonpermissive temperature. When rpoBCoperon carrying mutation rpoC1 is duplicated no dosage effect is observed. In the rpoC ⁺/rpoC1 heterodiploid the rpoC1 mutation does not significantly accelerate RNA polymerase subunits synthesis i.e. is recessive with respect to rpoC ⁺ Rifampicin causes 6-fold stimulation of RNA polymerase subunits synthesis in a sensitive wild-type strain. The rpoC1 mutation itself accelerates the synthesis of these subunits 3-fold. In the presence of rifampicin the mutant strain produces 13–22-fold faster as compared to wild-type strain without the drug. Thus, the effects of rifampicin and the mutation are multiplied suggesting that these factors act independently. Similar data have also been obtained with rifampicin-treated cells of rpoB22 (ts22) amber-mutant.After UV-irradiation of cells and synthesis is depressed much stronger than the total protein synthesis. Infection with a transducing phage rif ^d-47 which carries rpoB gene provokes a higher rate of synthesis. When pre-irradiated cells (500 erg/mm²) are infected with this phage, the rate of synthesis grows 20-fold compared to irradiated, non-infected cells and 6.5-fold compared to intact cells.The data are discussed in terms of the possible regulatory mechanisms of RNA polymerase subunit synthesis.