Studies on [14C]-glucose metabolism during shoot bud induction in cultured cotyledon explants of Pinus radiata

Bender, L., Joy IV, R. W. and Thorpe, T. A. 1987. Studies on [¹⁴C]-glucose metabolism during shoot bud induction in cultured cotyledon explants of Pinus radiala.
Excised cotyledons of Pinus radiata D. Don, cultured under shoot-forming (plus N⁶-benzyladenine) and elongating (minus N⁶-benzyladenine) conditions, were fed U-[¹⁴C]-glucose for 3 h in the light followed by a 3 h chase period immediately after excision (day 0) and after 3 days of culture (day 3). The incorporation of ^l4C into individual soluble metabolites as well as into protein was followed. No labelled citrate could be detected at day 0, however, a flow of ¹⁴C from glucose to glutamate/ glutamine occurred. During this stage the synthesis of glutamine strongly increased in the cotyledons supplied with N⁶-benzyladenine, which suggests a positive influence of this cytokinin on nitrogen incorporation prior to differentiation. After 3 days of cultivation large amounts of labelled citrate were detected. An increased incorporation of label into protein due to the cytokinin treatment was not detected during the early culture period (days 0 and 3). Labelled amino acids were incorporated into protein to different degrees, but this was not influenced by the hormonal treatment.     

14C-Metabolism in cultured cotyledon explants of radiata pine

Excised cotyledons of radiata pine ( Pinus radiata D. Don), cultured under shootforming (plus cytokinin) and elongating (minus cytokinin) conditions, were incubated in ¹⁴C-glucose, ¹⁴C-acetate or ¹⁴C-bicarbonate at different stages of growth and differentiation. ¹⁴CO₂ was produced when the cotyledons were fed ¹⁴C-glucose and ¹⁴C-acetate (no measurement was made for ¹⁴C-bicarbonate feeding). Label from these precursors was incorporated into ethanol-soluble and -insoluble fractions. The largest percentage of radioactivity was associated with the ethanol-soluble portion, which was further fractionated into lipids, amino acids, organic acids and sugars. The amount of label and the pattern of labelling associated with each of the above classes of metabolites varied with time in culture and morphogenetic behaviour of the cotyledons. In general, there was a tendency towards a high rate of incorporation of label in elongating cotyledons during the period of rapid elongation. On the other hand, a high rate of incorporation of label in shoot-forming cotyledons coincided with the period of meristematic tissue formation. The data obtained support the hypothesis that organized development in vitro involves a shift in metabolism, which precedes and is coincident with the initiation of the process.     

Metabolism of 14C-aspartate during shoot bud formation in cultured cotyledon explants of radiata pine

Aspartate metabolism was investigated in excised cotyledons of radiata pine ( Pinus radiata D. Don). These cotyledons were cultured under shoot-forming (plus N⁶-benzyladenine, SF), non-shoot-forming (minus N⁶-benzyladenine, NSF) and unresponsive (plus N⁶-benzyladenine, OLD) conditions, then incubated with [¹⁴C]-aspartate for 3-h pulse treatments followed by 3-h chase treatments with cold aspartate. The majority of label was recovered in the CO₂, amino acid, organic acid and pellet fractions. Uptake was greatest in all tissue types early in culture. Most (over 80%) of the [¹⁴C]-aspartate taken up by the tissues was converted to CO₂ at day 0 in SF and NSF tissues, CO₂ accounted for less than 50% of the total radioactivity in other tissues. Greater incorporation into fractions was observed in SF tissues during promeristemoid formation, while in NSF tissues the greatest incorporation was observed during a period of rapid elongation. Generally, less incorporation was observed in OLD cotyledons than in SF and NSF cotyledons. Analysis of the amino acid fraction showed that labelled aspartate was converted to other amino acids, mainly glutamate, glutamine, asparagine and 4-aminobutyric acid.     

Putrescine metabolism in excised cotyledons of Pinus radiata cultured in vitro

The metabolism of ¹⁴C-putrescine and the changes in the endogenous concentrations of putrescine, spermidine and spermine were studied when cotyledons of Pinus radiata D. Don were cultured under shoot-forming (SF, + N⁶-benzyladenine) and non-shoot-forming (NSF, - N⁶-benzyladenine) conditions. Differences in the total uptake of ¹⁴C-putrescine during a 2 h pulse feeding were not significant between the SF and NSF cotyledons except on day 3. The maximum uptake of label was on day 3 in the SF cotyledons, which released the highest amount of ¹⁴CO₂ as well. ¹⁴C from the labeled putrescine was incorporated mainly into γ-aminobutyric acid, aspartate and glutamate. High performance liquid chromatography of the endogenous polyamines indicated that spermidine was the most predominant polyamine in the cultured cotyledons of radiata pine. Spermine increased by about 60% in the SF and 25% in the NSF cotyledons between days 0 and 3 of culture.     

Gibberellic acid-stimulated and auxin-stimulated cell growth in relation to RNA synthesis, protein synthesis and development in the wheat coleoptile

Young excised coleoptiles from dark grown wheat have their cell growth promoted by gibberellic acid (GA₃), while sections from older coleoptiles have their cell growth promoted by auxin. The GA₃ response has a much longer lag period than that of auxin. Neither GA₃ nor auxin has any effect on ¹⁴C-leucine and ¹⁴C-uridine incorporation and uptake after 1 h, indicating that the lag in growth stimulation following GA₃ application is not associated with changes in protein or RNA synthesis. Following a 6 h incubation there are small increases in ¹⁴C-leucine and ¹⁴C-uridine incorporation in response to both GA₃ and auxin, and in the case of auxin this is associated with increased uptake. Studies on protein and RNA turnover using pulse-chase experiments have shown that both GA₃ and auxin have no effect on protein and RNA stability. There are, however, developmental changes in RNA and protein synthesis that should be considered in any explanation of the mechanism of action of these hormones on cell growth. Young GA₃-sensitive tissue has high rates of RNA synthesis and low protein and RNA turnover, while auxin-sensitive tissue has low rates of RNA synthesis, slightly higher rates of RNA turnover and much higher rates of protein turnover. The evidence overall favours more effective utilisation by GA₃ and auxin of a basal control level of RNA and protein synthesis and turnover in coleoptile tissue.     

RNA Synthesis and Processing during Cytodifferentiation in Fetal Rat Pancreas

In fetal rat pancreas cytodifferentiation occurs between day 14 and day 20 of gestation and is accompanied by an exponential increase in the cellular accumulation of tissue specific proteins and an elaboration of the cellular organelles associated with their synthesis and secretion. Evaluation of RNA synthesis by [³H] uridine incorporation into trichloroacetic acid precipitable material showed that during this period the apparent rate of RNA synthesis increased 7.5 fold from 2 × 10³ dpm/μg DNA/h on day 15 to 1.5 × 10⁴ dpm/μg DNA/h on day 19; [³H] leucine uptake showed that the rate of protein synthesis increased about the same extent with the major difference being that the maximum rate of protein synthesis occurred on day 19, one day after the maximum rate of RNA synthesis. The soluble pyrimidine nucleotide pools decreased from 122 pmol/μg DNA on day 14 to 15 pmol/μg DNA on day 16 followed by an increase to 104 pmol/μg DNA on day 19; the purine nucleotide pools decreased from 367 pmol/μg DNA on day 14 to 286 pmol/μg DNA on day 16 and then increased to 635 pmol/μg DNA on day 19. These values roughly paralleled the transitions observed in the rates of RNA and protein synthesis. Agarose-acrylamide slab gel electrophoresis showed an increase in RNA synthesis and an increase in ribosomal RNA synthesis and processing with cytodifferentiation.     

Starch turnover in shoot-forming tobacco callus

Tobacco callus grown under shoot-forming conditions or in the presence of gibberellic acid, which inhibits shoot formation, was incubated in [¹⁴C]-sucrose at three different periods in culture and then replanted. Evolution of ¹⁴CO₂ occurred during the 10 day post-incubation period. Most of the radioactivity was incorporated into the ethanol-soluble fraction, which lost most of its label after 24 h. Starch was the major ethanol-insoluble component and post-incubation synthesis occurred in this fraction for 24 h or longer. Greater net synthesis of starch occurred in shoot-forming tissue and the loss of label from starch began later than in tissue cultured in the presence of gibbe-rellic acid. Newly synthesized starch was not immediately utilised in the organogenic process, but its utilization could be correlated with the shoot-forming process.     

The Acute Effects of Ionizing Radiation on DNA Synthesis and the Development of Antibody-Producing Cells

Ionizing radiation inhibited the development of specific haemolysin-producing cells (PFC) and depressed the incorporation of (³H) thymidine by rabbit spleen explants responding to SRC in the culture medium. In contrast to these effects, the rates of incorporation of precursors for protein and RNA synthesis were much less affected. The depression of (³H) thymidine incorporation was found to result from a quantitative reduction of new DNA synthesis, without any change in the proportion of labelled cells, at any time after irradiation. The DNA synthesis occurring in these cells preparing to develop antibody-producing capacity was thus radio-sensitive, but the exact nature of the defect resulting from exposure to radiation requires further study.     

Inhibition of polyamine biosynthesis by dicyclohexylamine in cultured cotyledons of Pinus radiata

Biondi, S., Torrigiani, P., Sansovini, A. and Bagni, N. 1988. Inhibition of polyamine biosynthesis by dicyclohexylamine in cultured cotyledons of Pinus radiata. - Physiol. Plant. 72: 471–476.
The effect of 1 mAf dicyclohexylamine (DCHA) on the synthesis of spermidine and spermine was examined in excised cotyledons of radiata pine ( Pinus radiata D. Don) cultured under shoot-forming (with cytokinin) and non-shoot-forming (minus cytokinin) conditions by incubation with [¹⁴C]-putrescine. In control cotyledons incorporation into spermidine showed a peak at day 2 in the presence and at day 5 in the absence of N⁶-benzyldenine (BA). DCHA-treated cotyledons gave the same labeling pattern, both in the presence and absence of benzyladenine, with a much smaller peak at day 2. The incorporation into spermidine and spermine was insignificant at day 5 and later. The total radioactivity in the trichloroacetic acid supernatant indicated that precursor uptake was strongly reduced by the drug. In addition, the percentage label found in the benzene phase and combined in the 3 polyamines was lower in DCHA-treated cotyledons. Thus, treatment with DCHA not only inhibited the conversion from putrescine to spermidine and spermine, but also reduced its conversion to other benzene-extractable compounds. S-Adenosylmethionine decarboxylase (SAMDC, EC 4.1.1.50) activity, which furnishes the propylamine group to spermidine and spermine synthases (EC 2.5.1.16 and EC 2.5.1.-), was not significantly affected by DCHA and appeared to be independent of the spermidine and spermine synthase reactions, suggesting that spermine synthesis decreased as a result of substrate depletion. The correlation between morphological development and polyamine biosynthesis is discussed.     

Retinoic Acid-Induced Cartilage Resorption

The addition of retinoic acid to fetal rat bones in culture induces the release of proteoglycans followed by cartilage resorption. In this system retinoic acid markedly suppressed ³H-leucine and ³H-mannose incorporation into acid-precipitable macromolecules, and specifically changed the ³H-leucine incorporation pattern as revealed by gel electrophoresis. Tunicamycin, which selectively inhibits glycosylation of the asparagine residues in proteins, prevented the cartilage cell degradation in response to retinoic acid. Inhibitors of DNA synthesis did not affect the retinoic acid-induced changes indicating that cell division was not required for the cartilage degradation processes induced by retinoic acid. In consideration of our previous and present demonstrations that retinoic acid-induced cartilage resorption required RNA, protein, and glycoprotein synthesis and specifically changed the protein synthesis pattern, we suggest that retinoic acid may exert its action by altering gene expression.     

Links between methanotroph community composition and CH4 oxidation in a pine forest soil

The main gap in our knowledge about what determines the rate of CH₄ oxidation in forest soils is the biology of the microorganisms involved, the identity of which remains unclear. In this study, we used stable-isotope probing (SIP) following ¹³CH₄ incorporation into phospholipid fatty acids (PLFAs) and DNA/RNA, and sequencing of methane mono-oxygenase ( pmoA ) genes, to identify the influence of variation in community composition on CH₄ oxidation rates. The rates of ¹³C incorporation into PLFAs differed between horizons, with low ¹³C incorporation in the organic soil and relatively high ¹³C incorporation into the two mineral horizons. The microbial community composition of the methanotrophs incorporating the ¹³C label also differed between horizons, and statistical analyses suggested that the methanotroph community composition was a major cause of variation in CH₄ oxidation rates. Both PLFA and pmoA -based data indicated that CH₄ oxidizers in this soil belong to the uncultivated 'upland soil cluster α'. CH₄ oxidation potential exhibited the opposite pattern to ¹³C incorporation, suggesting that CH₄ oxidation potential assays may correlate poorly with in situ oxidation rates. The DNA/RNA-SIP assay was not successful, most likely due to insufficient ¹³C-incorporation into DNA/RNA. The limitations of the technique are briefly discussed.     

Oligodendroglial Glycerophospholipid Synthesis: Incorporation of Radioactive Precursors into Ethanolamine Glycerophospholipids by Calf Oligodendroglia Prepared by a Percoll Procedure and Maintained in Suspension Culture

Abstract: Oligodendroglia prepared from minced calf cerebral white matter by trypsinization at pH 7.4, screening, and isosmotic Percoll (polyvinylpyr-rolidone-coated silica gel) density gradient centrifugation survived in culture on polylysine-coated glass, extending processes and maintaining phenotypic characteristics of oligodendroglia. In the present study, ethanolamine glycerophospholipid (EGP) metabolism of the freshly isolated cells was examined during short-term suspension culture by dual label time course and substrate concentration dependence experiments with [2-³H]glycerol and either [1,2-¹⁴C]ethanolamine or L-[U-¹⁴C]serine. Rates of incorporation of ³H from the glycerol and of ¹⁴C from the ethanolamine into EGP were constant for 14 h. In medium containing 3 mM-[1,2-¹⁴C]ethanolamine and 4.8 mM-[2-³H]glycerol, rates of incorporation of ¹⁴C and ³H into diacyl glycerophosphoethanolamine (diacyl GPE) were similar. Under the same conditions, ³H specific activities of alkylacyl GPE and alkenylacyl GPE were much lower than ¹⁴C specific activities, likely as a result of the loss of tritium during synthesis of these forms of EGP via dihydroxyacetone phosphate. L-[U-¹⁴C]serine was incorporated into serine glycerophospholipid (SGP) by base exchange rather than de novo synthesis. ¹⁴C from L-[U-¹⁴C]serine also appeared in EGP after an initial lag period of several hours. Methylation of oligodendroglial EGP to choline glycerophospholipid (CGP) was not detected.     

Several Cell Responses to Insulin of Cultured Cells Derived from Micromeres, Isolated from Sea Urchin Embryos at the 16 Cell Stage

In micromere-derived cells of sea urchin embryos, treatment with insulin started for up to 24 h during culture at 20°C resulted in augmentation of ³²P incorporation into protein (protein phosphorylation) followed by activation of ³²P incorporation into RNA (RNA synthesis) and then induced pseudopodial cable growth, accompanied by considerable decreases in the rates of protein phosphorylation and RNA synthesis. This augmentation of RNA synthesis and cable growth induced by insulin were blocked by H-7, which inhibited protein phosphorylation, and were also inhibited by actinomycin D without any inhibition of protein phosphorylation. Similar results were obtained on treatment with horse serum, found to contain insulin-like compounds. In cells treated with horse serum treated cells, high rates of protein phosphorylation and RNA synthesis were maintained even after the initiation of cable growth and about 5 h later, spicule rods were produced. Insulin treatment did not induce spicule rod formation. In cells treated with horse serum, actinomycin D treatment started at the time of initiation of cable growth, cables were formed but formation of spicule rods was blocked. These results suggest that horse serum contains some other substance besides insulin-like ones, which induces expression of genes that are indispensable for spicule rod formation.     

Alternative and cytochrome pathway respiration during shoot bud formation in cultured Pinus radiata cotyledons

Respiration rates for excised cotyledons of Pinus radiata cultured in the presence (shoot-forming) and absence (non-shoot-forming) of N⁶-benzyladenine (BA) over a 21-day period were measured using a Clark-type oxygen electrode. The capacities and activities of cytochrome and alternative pathways of respiration were determined from titrations with KCN (1-10 m M ) and salicylhydroxamic acid (2–20 m M ) individually and in combination. Respiration accounted for by alternative (AP) and cytochrome (CP) pathways varied with both culture treatment and age in culture. Rates of total respiration, CP respiration and AP activity rose concurrent with key developmental events of shoot bud formation. The greatest AP capacity was measured at day 3 in shoot-forming tissue. In contrast, for cotyledons cultured under non-shoot-forming conditions, no AP activity was observed after day 3 despite relatively constant AP capacity throughout the culture period. Although initial increases in cotyledon respiration during the culture period may be related to wounding and introduction to a tissue culture environment, later differences in respiratory patterns between shoot-forming and non-shoot-forming cotyledons appear to be associated with the cytokinin-induced developmental changes which give rise to shoot primordia in cultured radiata pine cotyledons.     

The Effects of Insect Juvenile Hormone on the Growth of Some Protozoans in vitro. I. Crithidia sp.

SYNOPSIS. Experiments were designed to investigate the effects of insect juvenile hormone (JH) on the over-all growth and macromolecular synthesis of Crithidia sp. in vitro. Cells grown in the presence of 10⁻⁵M-10⁻³M JH showed a concentration-dependent inhibition of growth, which appeared to result from both a prolongation of generation time and a delay in the onset of logarithmic growth. Juvenile hormone (10⁻³M) inhibited the incorporation of [³H]thymidine, [³H]uridine and [³H] leucine into logarithmically growing cells by 50, 70 and 40% respectively. The incorporation of [³H]uridine into acid insoluble material could be stopped within 1 hr of application of the hormone (10⁻³M). The inhibitory effect was reversible in terms of cell numbers in subcultures of washed cells but an examination of the reversibility of RNA synthesis inhibition suggested that the resumption of RNA synthesis at an optimal level would require a lag period of at least 1–3 hr. It is suggested that JH may act by interfering with RNA synthesis either directly or indirectly by primarily acting at the level of the plasma membrane.     

Cellular Commitment for Post-Gastrular Increase in Alkaline Phosphatase Activity in Xenopus laevis Development

Xenopus embryos were dissociated into cells and cultured in Ca²⁺-free medium to study the relationship between the cell-to-cell interaction and macromolecular synthesis. Under the conditions, cells did not aggregate at all, and remained isolated even while they were dividing actively. Synthesis of DNA and protein as studied by the incorporation of (³H)thymidine and (³H)leucine proceeded as in the aggregating cells. Also, the activity to synthesize rRNA, 5S RNA, and heterogeneous RNA as determined by the incorporation of (³H)uridine was not impaired. Such an increase in the activity of alkaline phosphatase, as occurs in embryos after the gastrula stage, was found to be inhibited greatly when early-blastula cells were cultured in the non-aggregating conditions. However, we found here that the inhibition was not observed with cells isolated from late-blastulae. Therefore, it appears that the increase in the activity of alkaline phosphatase during post-gastrular stages is dependent on some cellular commitment which may be established by cell-to-cell contact during the blastula stage.     

Action of cortisol on the proliferation of rainbow trout fibroblasts

Abstract The effect of cortisol on the proliferation of the rainbow trout fibroblast cell line, RTG-2, was examined in synchronous and asynchronous cultures. When the transition from G₁ to S was synchronized by restoring serum to serum-deprived cultures, the addition of cortisol at the time of serum restoration delayed the entry of cells into S phase. However, if cortisol was added 24 h after serum restoration, at the G₁/S transition point, the subsequent peak of DNA synthesis was unaffected. In asynchronous cultures cortisol inhibited [³H]-thymidine and [³H]-uridine but not [³H]-leucine incorporation into acid-insoluble material. If the exogenous nucleoside concentration was raised, [³H]-thymidine but not [³H]-uridine incorporation continued to be inhibited by cortisol. This suggested that cortisol's effect on [³H]-thymidine incorporation reflected a change in entry into S phase and not just on thymidine uptake and metabolism. Cortisol inhibited the proliferation of RTG-2 in asynchronous cultures. At 1000 ng/ml of cortisol a reduction in cell number became apparent before the RTG-2 cultures were confluent, whereas at 100 ng/ml the reduction only became evident in confluent cultures. The synthetic antiglucocorticoid, RU 486, which acts at the level of the corticosteroid receptor, blocked the growth inhibition by cortisol. These results suggest that cortisol regulates rainbow trout fibroblast proliferation via the corticosteroid receptor and that the G₁/S transition is one point at which this regulation occurs.     

Some Effects of Pentamidine Di-isethionate on Crithidia fasciculata

SYNOPSIS. Growth-inhibitory concentrations of pentamidine inhibit to a similar extent net synthesis of DNA, RNA, protein and phospholipid by washed cell suspensions of Crithidia fasciculata. The incorporation of ³H-thymidine into DNA, ¹⁴C-adenine into DNA and RNA and ¹⁴C-lysine into protein is similarly inhibited. The same concentrations of drug have little or no effect on viability, motility, 1-C metabolism, respiration or K⁺ content of organisms, altho they do cause increased amounts of intracellular ATP. Lysine uptake (in the absence of arginine) is, however, inhibited. At higher concentrations of drug respiration is inhibited and organisms lose K⁺. The mode of action of pentamidine is considered in the light of these observations and a mechanism of uptake of pentamidine into organisms is suggested.     

Thymidine incorporation in Lake Cisó: Problems in estimating bacterial secondary production across oxic-anoxic interfaces

Abstract Heterotrophic bacterial activity was measured by means of the ³H-thymidine (³H-TdR) incorporation technique in Lake Cisó, a small holomictic lake with anoxic hypolimnion. We tested several methodological questions across the vertical profile: TdR concentration at which maximal incorporation is reached, linearity of incorporation and isotope dilution, during holomixis and stratification periods. The TdR concentration at which maximal incorporation is reached changed seasonally and vertically. During holomixis, maximal incorporation was not always reached at concentrations up to 40 nM. Uptake was always linear in short incubation times and decreased from epi- to hypolimnion. The isotope dilution technique indicated a degree of participation in DNA synthesis higher than 50%, although a linear relationship between the inverse of ³H-TdR incorporation and increasing ‘cold’ thymidine concentration was not always observed. Autoradiographic experiments showed a low percentage of bacteria taking up ³H-TdR in both aerobic and anaerobic samples. The percentage of total labeled bacteria seemed to be generally higher in the metalimnion (11% maximal value) than in the hypolimnion. Labeled Amoebobacter and Chromatium cells were detected in field samples. Amoebobacter cells photoassimilated TdR in culture. Therefore, our results show that ³H-TdR incorporation is not an appropriate technique to estimate bacterial secondary production in anaerobic systems and in oxic-anoxic interfaces.     

Culture of cotyledons of Douglas-fir on a medium for the induction of adventitious shoots induces rapid changes in polypeptide profiles and mRNA populations

Cotyledons of 3- to 4-week-old seedlings of Douglas-fir [ Pseudotsuga menziesii (Mirb). Franco] were treated with shoot induction medium (SIM) containing 5 μ M 6N-benzylaminopurine (BAP) and 5 n M naphthaleneacetic acid (NAA). Fresh weight, dry weight and soluble protein levels were not altered within the first 48 h of SIM treatment. SIM-treated cotyledons were labelled in vivo with ³⁵SO₄^2-, and TCA-insoluble proteins were analyzed electrophoretically by a 2-dimensional system consisting of non-equilibrium electrophoresis (NEPHGE) followed by sodium dode-cylsulfate polyacrylamide gel electrophoresis (SDS-PAGE). A basic polypeptide with a relative molecular weight of 14.5 kDa was detected 32 h after induction and after 48 h a number of polypeptides in the 14 to 35 kDa range were induced. Translation products of poly-A⁺ RNA isolated from cotyledons treated with SIM for 4, 16, 32 and 48 h were analyzed by using 2-dimensional NEPHGE-SDS-PAGE. Both qualitative and quantitative differences in the translation products were observed at all time points investigated. Expression of a specific RNA coding for a 30 kDa polypeptide was demonstrated as early as 4 h after culture on SIM. This RNA was also present at 16 h, but decreased with longer SIM treatments. Thus, culture of excised cotyledons on a medium inducing the formation of adventitious shoots results in rapid quantitative and qualitative changes in the polypeptide composition and translatable RNA population prior to morphological evidence of shoot induction.