Effects of NDA,a new plant growth retardant,on cell culture growth ofZea mays L.

A new plant growth retardant, the norbornenodiazetine derivative 5-(4-chlorophenyl) - 3,4,5,9,10 - pentaaza - tetracyclo - 5,4,1,0^2.6,0^8.11- dodeca - 3,9 - diene (NDA) was tested for its effects on growth ofZea mays suspension cultures. It was shown that NDA could inhibit cell division almost completely at a concentration of 5× 10^?5 M, while 80% of cells could be considered viable. Tracer experiments revealed that NDA inhibited thymidine, uridine, and leucine uptake into cells after 30 min of application. In contrast, amino acid incorporation into proteins was reduced only after one day of treatment and incorporation of precursors into DNA and RNA still later. Since NDA stimulated DNase, RNase, and protease activity in the cells simultaneously, an enhancement of DNA and RNA in cells possibly was prevented. That NDA affected protein synthesis indirectly seemed to be proved by the late point in time of its action on leucine incorporation and by only slight effects on cell free translation. An explanation of these findings could be an alteration in or inhibition of sterol biosynthesis caused by NDA, because it is known that sterols play an important role in controlling permeability of plant membranes as well as in maintaining normal protein synthesis. Thus we tested NDA for its effects on sterol production in maize cells and demonstrated that the composition of the sterol fraction, mainly stigmasterol and β-sitosterol, was clearly changed qualitatively as well as quantitatively.     

Inhibition of protein synthesis in Krebs 2 ascites cells and cell-free systems by phenylalanine and its effect on leucine and lysine in the amino acid pool

1. The inhibition of incorporation of ¹⁴C-labelled amino acids into protein of whole cells by phenylalanine has been reproduced in a cell-free system. In both cases only the l-isomer was inhibitory. 2. The effect of phenylalanine on incorporation of [¹⁴C]leucine and [¹⁴C]lysine into protein was different in both whole cells and cell-free systems. 3. In whole cells inhibition of incorporation of leucine at 2·5μg./ml. was very rapid, but when the concentration was increased to 100μg./ml. the inhibition was not apparent for about 1hr. The kinetics of inhibition of lysine was the same at both these concentrations and was similar to that found with leucine at 100μg./ml. 4. Neither a lower specific radioactivity of the two amino acids in the pool nor a decrease in their pool size could be consistently related with inhibition of protein synthesis. 5. In the cell-free system l-phenylalanine inhibited the incorporation of leucine but not of lysine. 6. Charging of transfer RNA by leucine was markedly decreased in the presence of phenylalanine, whereas charging of transfer RNA by lysine was not.     

Plant cell suspension cultures as model systems for investigating growth regulating compounds

Several plant growth regulators were investigated for their activity in cell suspension cultures of Glycine max, Gossypium hirsutum and Zea mays. The effect on the growth of the cell cultures was traced by means of cell counting and determining packed cell volume and turbidity of the suspensions. The growth retardant 5-(4-chlorophenyl)-3,4,5,9,10-pentaaza-tetracyclo-5,4,10^2,6 ,0^8,11-dodeca-3,9-diene (NDA) and, to a slightly lesser extent, ancymidol proved to be the compounds with the greatest inhibitory action on cell division growth of all three cell cultures. In the case of cotton this effect was accompanied by increased synthesis and secretion of cell-wall material. Staining methods showed that, especially in the case of NDA, a high percentage of cells could be considered as viable, and showed thus that NDA inhibits the cell division process while the cells remain metabolically active. The effects of 1,1-Dimethyl-piperidiniumchloride (DPC), a genuine growth retardant of cell propagation, and, with less efficiency, N-trimethyl-(-chloroethyl)-ammoniumchloride (CCC) in cotton, the triazole LAB 117 682 in soybean and maize, and, to a lesser extent, (2-isopropyl-5-methyl-4-trimethyl-ammoniumchloride)-phenyl-l-piperidiniumcarboxylate (AM0-1618) in soybean can be regarded as species-specific. Otherwise, CCC and particularly daminozide exhibited no action at the concentrations used. A comparison of the data from hydroculture studies with soybean and maize seedlings showed considerable agreement with the effectiveness of the substances in the corresponding cell cultures. Thus, cell cultures can be used to identify and screen substances with growth-influencing activity, and may also offer new ways to elucidate the mode of action of plant growth regulators.     

Plant growth retardants as inhibitors of sterol biosynthesis in tobacco seedlings

Three plant-growth retardants 2′-isopropy1-4′-(trimethylammonium chloride)-5-methylphenylpiperidine carboxylate (Amo 1618), β-chloroethyltrimethylammonium chloride, and tributyl-2, 4-dichlorobenzylphosphonium chloride were tested for their effects on sterol production in, and growth of tobacco (Nicotiana tabacum) seedlings. As the concentration of each retardant increased, there was an increased inhibition of the incorporation of dl-2-¹⁴C-mevalonic acid into sterol (particularly desmethylsterol) fractions and an increased retardation of stem growth. Growth retardation was observed with both single and repeated retardant treatments, and with Amo 1618, in particular, a close quantitative relationship between inhibition of sterol biosynthesis and stem growth was obtained. Gibberellic acid completely overcame retardant effects and application of sterols also restored normal growth. It is concluded that the concept of causality in the relationship between growth retardation and gibberellin biosynthesis is probably premature, since growth retardants have a more general inhibitory action on isoprenoid biosynthesis in plants.     

Incorporation of l-[C]leucine into egg proteins by liver slices from cod

1. Liver slices from cod (Gadus morhua L.) were incubated with l-[¹⁴C]leucine and the incorporation of label into total protein, precipitated with trichloroacetic acid, and into egg proteins, precipitated with an antibody after addition of carrier egg proteins, was measured. 2. Liver slices from immature male or female cod, and from male fish with developing testes, did not incorporate significant amounts of l-[¹⁴C]leucine into egg proteins, whereas with slices from female cod with developing ovaries the rate of incorporation into egg proteins was 8% of the rate of incorporation into total protein. 3. Liver slices from immature male or female fish that had received an intramuscular injection of oestradiol benzoate (1mg/kg) 5–8 days previously incorporated l-[¹⁴C]leucine into egg proteins at about 26% of the rate of incorporation into total protein. 4. Incorporation into total protein and into egg proteins was inhibited by puromycin, and 1.2 and 0.13μg of puromycin/mg of tissue protein, respectively, gave 50% inhibition.     

Glucocorticoids inhibit precursor incorporation into protein in splenic lymphocytes by stimulating protein degradation and expanding intracellular amino acid pools

In the presence of tracer concentrations of extracellular leucine (5 μM), treatment of rat splenic lymphocyte suspensions in vitro with 1 μM dexamethasone for 2.5–4 h caused a 30–35% inhibition of [³H]leucine incorporation into protein. As the extracellular leucine concentration was raised to 5 mM, this inhibition was progressively reduced to 0–12%. This phenomenon correlated with a marked dependence on extracellular leucine concentration of the dexamethasone-dependent enlargement of free intracellular leucine pools in splenic lymphocytes: a 123% increase in pool size with tracer extracellular leucine; a 10% increase with 5 mM leucine. Varying extracellular leucine had no effect on: (1) nuclear [³H]dexamethasone binding by the cells; (2) the concentration of dexamethasone needed for half-maximal inhibition of [³H]leucine incorporation; (3) the time course of onset and maximal expression of the hormonal inhibition of [³H]leucine incorporation; or (4) the magnitude of dexamethasone-dependent inhibition of [³H]uridine incorporation into RNA by these cells. There was no detectable effect of dexamethasone on uptake and retention of [³H]leucine by the cells, regardless of the extracellular leucine concentration. Treatment of splenic lymphocytes for 4 h in vitro with 1 μM dexamethasone caused a small shift of ribosomes from larger aggregate polysomes to smaller forms. Thus, glucocorticoid-induced inhibition of amino acid incorporation in splenic lymphocytes is a multicomponent response, of which an actual decrease in protein synthesis is only a small part. Enlargement of free intracellular amino acid pools, probably resulting from increased protein degradation, is the major contributing factor to the hormonal inhibition of amino acid incorporation.     

Utilization of Amino Acids as a Sole Source of Nitrogen by Obligate Chemolithoautotroph Thiobacillus ferrooxidans

An obligate chemolithoautotroph, Thiobacillus ferrooxidans API 9–3, could utilize amino acids, other than glycine, methionine and phenylalanine, as a sole source of nitrogen. However, both the growth rate and growth yield were lower than those in Fe²⁺-NH4 -salts medium, suggesting that the ammonium ion was a superior nitrogen source for the strain compared to amino acids. Methionine and phenylalanine strongly inhibited the cell growth on Fe²⁺-NH4-salts medium at 10 mm. [¹⁴C]Glycine could not be taken up into the cells, and this meant the strain could not use glycine as a sole source of nitrogen. The uptake of [¹⁴C]leucine into the cells was dependent on the presence of Fe^{2 +}. When the strain was cultured on Fe^{2 +} - leucine (lOmm)-salts medium lacking an inorganic nitrogen source for 5 days at 30°C, 83.5% and 16.5% of the cellular carbon were derived from carbon dioxide and leucine, respectively, indicating that carbon dioxide was a superior carbon source for the bacterium compared to leucine. The ammonium ion did not inhibit the utilization of leucine for cellular carbon. Leucine uptake was markedly inhibited by inhibitors of protein synthesis, such as chloramphenicol (94.3% at 1 mm), streptomycin (57.2% at 5mm) and rifampin (77.2% at 0.1 mm), respectively. Carbon dioxide uptake was also completely inhibited by chloramphenicol at 4mm. These results suggest that the transport of both amino acids and carbon dioxide into the cells was dependent on protein synthesis.     

Effects of sethoxydim on the metabolism of isolated leaf cells of soybean [Glycine max (L.) Merr.]

The effects of the herbicide sethoxydim {2-[1-ethoxyimino)-butyl]-5-[2-(ethylthio)-propyl]-3-hydroxy-2-cyclohexen-1-one} on selected metabolic processes of enzymatically isolated leaf cells from soybeans [Glycine max (L.) Merr., cv. Essex] were studied. Photosynthesis, protein, ribonucleic acid (RNA), and lipid synthesis were measured by the incorporation of NaH¹⁴CO₃, [¹⁴C]leucine, [¹⁴C]uracil, and [¹⁴C]acetic acid into the isolated soybean cells, respectively. Time-course and concentration studies included incubation times of 30, 60, and 120 min and concentrations of 0.1, 1, 10, and 100 M of sethoxydim. Lipid synthesis was the most sensitive and first metabolic process inhibited by the lowest concentration of sethoxydim. Photosynthesis was not affected significantly by sethoxydim and did not appear to be a target site involved in its herbicidal action. RNA and protein syntheses were inhibited significantly but only by the high concentrations of sethoxydim. It is suggested that sethoxydim exhibits its phytotoxic action by altering or modifying the lipid composition of plant membranes.Abbreviations MES [2-(N-morpholino)-ethanesulfonic acid] - HEPES [N-2-hydroxyethyl piperazine-N-2-ethane sulfonic acid]     

Changes in sterol biosynthesis accompanying cessation of glial cell growth in serum-free medium

C-6 glioma cells, grown in medium supplemented with 5% delipidated foetal calf serum, were induced to enter a quiescent state by removing serum from the medium. Within 24h there was a 75–80% decline in the rate of incorporation of [¹⁴C]acetate or ³H₂O into digitonin-precipitable sterols. Experiments with [³H]mevalonolactone as a labelled sterol precursor suggested that the decline in sterol synthesis was regulated primarily at a point in the pathway before the formation of mevalonate. The specific activities of 3-hydroxy-3-methylglutaryl-CoA synthase and 3-hydroxy-3-methylglutaryl-CoA reductase decreased sharply in conjunction with the decline in sterol synthesis in the serum-free cultures; however, the activity of acetoacetyl-CoA thiolase was altered only slightly. The magnitude of the initial decline in reductase activity was not affected when 50-mm-NaF was included in the preincubation and assay buffers to prevent activation of physiologically inactive enzyme. However, after 6h of serum deprivation the decline in 3-hydroxy-3-methylglutaryl-CoA reductase activity was due to a decrease in the amount of latent activity. The sterol concentration in C-6 cells was unchanged after 24h in serum-free medium, although a 20% decrease in the sterol/fatty acid molar ratio occurred as a result of a small increase in the fatty-acid concentration. Incorporation of ³H₂O into fatty acids was inhibited in the serum-deprived glial cells; however, this inhibition developed more slowly and was not as pronounced as the diminution in sterol synthesis. The results suggest that in C-6 glia, which resemble the glial stem cells of the developing brain, the decreased demand for membrane sterols in the quiescent state results in a decline in sterol synthesis, mediated primarily through co-ordinate changes in the activities of 3-hydroxy-3-methylglutaryl-CoA synthase and 3-hydroxy-3-methylglutaryl-CoA reductase.     

Effect of pyridoxine deficiency on nucleic acid metabolism in the rat

1. The nucleic acid metabolism in the pyridoxine-deficient rat has been investigated through studies on the incorporation of radioactivity from various isotopically labelled compounds into liver and spleen DNA and RNA. 2. In pyridoxine deficiency, the incorporation of radioactivity from sodium [¹⁴C]formate was apparently increased. The magnitude of this effect on incorporation into liver RNA and DNA and spleen RNA was approximately the same. The incorporation into spleen DNA was enhanced to a much greater degree. Administration of pyridoxine 24hr. before the rats were killed reversed the changes in incorporation of radioactivity from [¹⁴C]formate. 3. In pyridoxine deficiency, the incorporation of radioactivity from dl-[3-¹⁴C]serine, [8-¹⁴C]adenine, [Me-³H]thymidine and [2-¹⁴C]deoxyuridine was decreased. The incorporation of radioactivity from l-[Me-¹⁴C]methionine was not affected. No noteworthy differences in the effect of pyridoxine deficiency on the incorporation of radioactivity from dl-[3-¹⁴C]serine into DNA and RNA were observed, whereas the effect of the deficiency on the incorporation of radioactivity from [8-¹⁴C]adenine into spleen DNA was somewhat greater than that into spleen RNA. Administration of pyridoxine 24hr. before the rats were killed reversed the changes in incorporation of radioactivity from [3-¹⁴C]serine and [8-¹⁴C]adenine. 4. The adverse effects of pyridoxine deficiency on the biosynthesis of nucleic acids and cell multiplication are discussed in relation to the role of pyridoxal phosphate in the production of C₁ units via the serine-hydroxymethylase reaction.     

Thymidine and leucine incorporation in soil bacteria with different cell size

Thymidine and leucine incorporation into macromolecules of soil bacteria extracted by homogenization-centrifugation were measured after size-fractionation of the bacterial suspension through different sized filters (1.0, 0.8, 0.6, 0.4 m). The specific thymidine incorporation rate was highest for the unfiltered and 1.0 m filtered suspensions (approximately 10 × 10^–21 mol thymidine bacteria^–1 h^–1), but decreased to 1.39 × 10^–21 mol bacteria^–1 h^–1 for bacteria passing the 0.4 m filter. The proportion of culturable bacteria (percent colony forming units/acridine orange direct counts) also decreased with bacterial cell size from 5.0% for the unfiltered bacterial suspension to 0.8% in the 0.4 µm filtrate. A strong linear correlation (r ² = 0.995) was found between the specific thymidine incorporation rate and the proportion of culturable bacteria. Leucine incorporation gave similar results to the thymidine incorporation. No effects of cell size on the degree of isotope dilution or unspecific labeling of other macromolecules were found either for the thymidine or the leucine incorporation technique. These data indicate that small bacteria, although more numerous than larger ones, not only constitute a smaller proportion of the soil bacterial biomass than larger bacteria, but also contribute to a lesser degree to carbon transformations in soil.     

Protein synthesis of binucleate and trinucleate pollen and its relationship to tube emergence and growth

Under humid conditions, both bi- and trinucleate pollen species incorporate, on the average, very low amounts of leucine, e.g., 0.4 pmol min^-1mg pollen^-1. During germination in vitro, however, the two types of pollens greatly differ in their capacity for protein synthesis.Binucleate pollen species such as Typha, which are characterized by slow respiration in humid air and prolonged lag periods during germination in vitro, contain large amounts of monoribosomes at dehiscence. Polyribosomes are formed soon after the pollen is wetted in the germination medium, and a considerable incorporation of leucine is initiated after 10–15 min. More rapidly respiring, binucleate pollen showing a short lag period, such as Tradescantia, may already contain many polysomes at dehiscence and incorporate leucine within 2 min of germination. However, rapidly respiring, trinucleate Compositae pollen contains very limited amounts of ribosomal material and never attains any substantial level of incorporation. Cycloheximide completely inhibits both protein synthesis and tube emergence and growth in the slowly respiring, binucleate pollen species. The more rapidly respiring types are less dependent on protein synthesis, while germination of the phylogenetically advanced, trinucleate Compositae pollen proceeds completely independently. It is concluded that the level of phylogenetic advancement of the male gametophyte is characterized by its overall state of metabolic development at dehiscence rather than by the number of its generative cells.Abbreviations BSA bovine serum albumin - CHI cycloheximide - EGTA ethyleneglycol-bis(-aminoethyl ether) N,N-tetraacetic acid - RH relative humidity - TCA trichloroacetic acid     

THE METABOLISM OF LEUCINE BY DEVELOPING RAT BRAIN: EFFECT OF LEUCINE AND 2-OXO-4-METHYLVALERATE ON LIPID SYNTHESIS FROM GLUCOSE AND KETONE BODIES

Abstract— The oxidation of l -[U-¹⁴C]leucine and l -[l-¹⁴C]leucine at varying concentrations from 0.1 to 5mM to CO₂ and the incorporation into cerebral lipids and proteins by brain slices from 1-week old rats were markedly stimulated by glucose. Although the addition of S mM-dl -3-hydroxybutyrate had no effect on the metabolism of [U-¹⁴C]leucine by brain slices from suckling rats, the stimulatory effects of glucose on the metabolism of l -[U-¹⁴C]leucine were markedly reduced in the presence of dl -3-hydroxybutyrate. The stimulatory effect of glucose on leucine oxidation was, however, not observed in adult rat brain. Furthermore, the incorporation of leucine-carbon into cerebral lipids and proteins was also very low in the adult brain. The incorporation of l -[U-¹⁴C]leucine into cerebral lipids by cortex slices was higher during the first 2 postnatal weeks, which then declined to the adult level. During this time span, the oxidation of l -[U-¹⁴C]leucine to CO₂ remained relatively unchanged. The incorporation in vivo of D-3-hydroxy[3-¹⁴C]butyrate into cerebral lipids was markedly decreased by acute hyperleucinemia induced by injecting leucine into 9-day old rats. In in vitro experiments, 5 mM-leucine had no effect on the oxidation of [U-¹⁴C]glucose to CO₂ or its incorporation into lipids by brain slices from 1-week old rats. However, 5 mM-leucine inhibited the oxidation of d -3-hydroxy-[3-¹⁴C]butyrate, [3-¹⁴C]acetoacetate and [1-¹⁴C]acetate to CO₂ by brain slices, but their incorporation into cerebral lipids was not affected by leucine. In contrast 2-oxo-4-methylvalerate, a deaminated metabolite of leucine, markedly inhibited both the oxidation to CO₂ and the incorporation into lipids of labelled glucose, ketone bodies and acetate by cortex slices from 1-week old rats. These findings suggest that the reduction in the incorporation in vivo of d -3-hydroxy[3-¹⁴C]butyrate into cerebral lipids in rats injected with leucine is most likely caused by 2-oxo-4-methylvalerate formed from leucine. Since the concentrations of leucine and 2-oxo-4-methylvalerate in plasma of untreated patients with maple-syrup urine disease are markedly elevated, our findings are compatible with the possibility that an alteration in the metabolism of glucose and ketone bodies in the brain may contribute to the pathophysiology of this disease.     

Assimilatory sulfur metabolism in marine microorganisms: Sulfur metabolism,protein synthesis,and growth of Pseudomonas halodurans and Alteromonas luteo-violaceus during unperturbed batch growth

Analysis of the distribution of ³⁵S-sulfate and ¹⁴C-glutamate in major biochemical components of the two marine bacteria, Pseudomonas halodurans and Alteromonas luteo-violaceus, was compared with cell density and total cellular protein during exponential growth in batch culture. For both organisms, the sulfur distribution was restricted principally to the low molecular weight organic and protein fractions, which together accounted for over 90% of the total sulfur. Carbon was more widely distributed, with these two fractions containing only 70% of the total label.Growth rate constants calculated from increases in cell numbers, protein, and ³⁵S and ¹⁴C in the various fractions indicated nearly balanced growth in A. luteo-violaceus, with constants derived from all biosynthetic parameters agreeing within 5% during the exponential phase. In contrast, protein synthesis and ³⁵S incorporation into residue protein constants were 30% higher than constants derived from cell counts and incorporation of ¹⁴C in P. halodurans. Therefore the cellular protein content P. halodurans varied over a two-fold range, with maximum protein per cell in the late exponential phase. A distinct reduction in the rate constants for total protein and ³⁵S incorporation into residue protein foreshadowed entry into the stationary phase more than one generation before other parameters.Incorporation of ³⁵S-sulfate into residue protein paralleled protein synthesis in both bacteria. The weight percent S in protein agreed well with the composition of an average protein derived from the literature. Sulfur incorporation into protein may be a useful measurement of marine bacterial protein synthesis.Abbreviations L.M.W. low molecular weight - TCA trichloroacetic acid - CFU colony forming unit     

The biosynthetic incorporation of the intact leucine skeleton into sterol by the trypanosomatid Leishmania mexicana

The amino acid leucine is efficiently used by the trypanosomatid Leishmania mexicana for sterol biosynthesis. The incubation of [2-(13)C]leucine with L. mexicana promastigotes in the presence of ketoconazole gave 14alpha-methylergosta-8,24(24(1))-3beta-ol as the major sterol, which was shown by mass spectrometry to contain up to six atoms of (13)C per molecule. (13)C NMR analysis of the 14alpha-methylergosta-8,24(24(1))-3beta-ol revealed that it was labeled in only six positions: C-2, C-6, C-11, C-12, C-16, and C-23. This established that the leucine skeleton is incorporated intact into the isoprenoid pathway leading to sterol; it is not converted first to acetyl-CoA, as in animals and plants, with utilization of the acetyl-CoA to regenerate 3-hydroxy-3-methylglutaryl-CoA (HMG-CoA). An inhibitor of HMG-CoA synthase (L-659,699) blocked the incorporation of [1-(14)C]acetate into sterol but had no inhibitory effect on [U-(14)C]leucine incorporation. The HMG-CoA reductase inhibitor lovastatin inhibited promastigote growth and [U-(14)C]leucine incorporation into sterol. The addition of unlabeled mevalonic acid (MVA) overcame the lovastatin inhibition of growth and also diluted the incorporation of [1-(14)C]leucine into sterol. These results are compatible with two routes by which the leucine skeleton may enter intact into the isoprenoid pathway. The catabolism of leucine could generate HMG-CoA that is then directly reduced to MVA for incorporation into sterol. Alternatively, a compound produced as an intermediate in leucine breakdown to HMG-CoA (e.g. dimethylcrotonyl-CoA) could be directly reduced to produce an isoprene alcohol followed by phosphorylation to enter the isoprenoid pathway post-MVA.     

Amino Acid incorporation in developing fucus embryos

The incorporation of ¹⁴C-leucine and ¹⁴C-amino acid mixture into protein in unfertilized eggs and developing embryos of the brown alga Fucus vesiculosus L. was studied. Bacterial contamination was initially a problem, but it was found that the addition of 40 μg/ml chloramphenicol to the incubation medium would inhibit bacterial protein synthesis without affecting early development of the Fucus embryos. The kinetics of uptake and incorporation of ¹⁴C-leucine into the trichloroacetic acid-soluble and -insoluble fractions indicated that the exogenous precursor did not equilibrate with the main soluble leucine pool before incorporation into protein. Uptake and incorporation of leucine by embryos 90 to 175 minutes old were proportional to exogenous leucine concentration over the range 5 × 10⁻⁶ m to 5 × 10⁻³ m. Unfertilized eggs will incorporate ¹⁴C-leucine into protein. The rate of this incorporation increases dramatically in newly fertilized eggs with a maximum rate at 3.5 hours, a period of cell wall formation and increasing metabolic rates. Thereafter, the rate of incorporation declines until approximately 15 to 17 hours when it increases again concurrently with the onset of rhizoid initiation and cell division.     

Leucine: tRNA Ligase from Cultured Cells of Nicotiana tabacum var. Xanthi: Evidence for de Novo Synthesis and for Loss of Functional Enzyme Molecules

Leucine:tRNA ligase was assayed in extracts from cultured tobacco (Nicotiana tabacum) XD cells by measuring the initial rate of aminoacylation of transfer RNA with l-[4,5-³H]leucine. Transfer RNA was purified from tobacco XD cells after the method of Vanderhoef et al. (Phytochemistry 9: 2291-2304). The buoyant density of leucine:tRNA ligase from cells grown for 100 generations in 2.5 mm [¹⁵N]nitrate and 30% deuterium oxide was 1.3397. After transfer of cells into light medium (2.5 mm [¹⁴N]nitrate and 100% H₂O) the ligase activity increased and the buoyant density decreased with time to 1.3174 at 72 hours after transfer. It was concluded that leucine:tRNA ligase molecules were synthesized de novo from light amino acids during the period of activity increase. The width at half-peak height of the enzyme distribution profiles following isopycnic equilibrium centrifugation in caesium chloride remained constant at all times after transfer into light medium providing evidence for the loss of preexisting functional ligase molecules. It was concluded that during the period of activity increase the cellular level of enzyme activity was determined by a balance between de novo synthesis and the loss of functional enzyme molecules due to either inactivation or degradation.     

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.     

Role of protein and RNA synthesis in the initiation of auxin-mediated growth in coleoptiles of Zea mays L.

The kinetics of inhibition by protein- and RNA-synthesis inhibitors (cycloheximide and cordycepin, respectively) of indole-3-acetic acid (IAA)-induced elongation growth were investigated using abraded coleoptile segments of Zea mays L. Removal of the cuticle — a diffusion barrier for solutes — by mechanical abrasion of the outer epidermal cell wall increased the effectiveness of inhibitors tremendously. In an attempt to elucidate the role of growth-limiting protein(s) (GLP) in the growth mechanism the following results were obtained. The elongation induced by IAA was completely inhibited when cycloheximide (10 mol·l^-1) was applied to abraded coleoptile segments as shortly as 10 min before the onset of the growth response (=5 min after administration of IAA). However, when cycloheximide was applied after 60 min of IAA treatment (when a steady-state growth rate is reached), the time required for complete cessation of growth was much longer (about 40 min). Cycloheximide inhibited the incorporation of [³H]leucine into protein within about 5 min. Cordycepin (400 mol·l^-1) prevented IAA-induced growth when applied as shortly as 25 min before the onset of the growth response (=10 min before administration of IAA) but required more than 60 min for a full inhibition of steady-state growth. The incorporation of [³H]adenosine into RNA was inhibited by cordycepin within 10 min. It is concluded that, contrary to previous investigations with nonabraded organ segments, the initiation of growth by IAA depends directly on the synthesis of GLP. Moreover, the apparent lifetime of GLP is at least four times longer than the time required by cycloheximide to inhibit the initiation of growth by IAA. This is interpreted to mean that GLP is not present before IAA starts to act but is synthesized as a consequence of IAA action starting a few minutes before the initiation of growth. Interpreting the kinetics of growth inhibition by cordycepin in a similar way, we further conclude that GLP synthesis is mediated by IAA-induced synthesis of the corresponding mRNA which starts about 10 min before the onset of GLP synthesis. Inhibition by cycloheximide and cordycepin of IAA-induced growth cannot be alleviated by acidifying the cell wall to pH 4-5, indicating that these inhibitors do not act on growth via an inhibition of auxin-mediated proton excretion.Abbreviations CHI cycloheximide - COR cordycepin - GLP growth-dimiting protein(s) - IAA indole-3-acetic acid - mRNA_GLP mRNA coding for GLP