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.     

Time-course of uptake of dissolved inorganic carbon through willow roots in light and in darkness

Uptake of dissolved inorganic carbon (DIC) from a nutrient solution by willow roots was measured in light and darkness and the distribution in the plant of DIC taken up by the roots was determined. It was also studied whether the transport system could be activated by preincubation with dissolved inorganic carbon.
Willow plants ( Salix cv. Aquatica gigantea) grown in hydroponic culture media were preincubated for 2 days with or without 0.74 mM NaHCO₃. After preincubation, either unlabelled or [¹⁴C]-labelled NaHCO₃ was injected into the media and after 1, 5, 10 and 24 h either in light or in darkness the plants were harvested in pieces into liquid nitrogen, lyophilized and burned in a combustion chamber.
¹⁴C was transported through the roots to the shoots and leaves both in light and in darkness, although incorporation of ¹⁴C in darkness was only half of that in light at the end of the 24-h feeding period. Both in light and in darkness the amount of ¹⁴C increased in all parts of willow plants with time. In light the rate of labelling was highest into cuttings and shoots. In darkness more than half of the total label was detected in cuttings of both the non-activated and the activated treatments.
In the shoots the middle part was most strongly labelled after 5 and 10 h, but after 24 h ¹⁴C moved towards the base of the shoot. In the leaves at all feeding times most radioactivity was incorporated into the young, fully open leaves on the upper part of the shoots. Preincubation of plants with unlabelled NaHCO³ in growth media had no clear effect on the rate of DIC uptake either in light or in darkness.     

Effect of the crown on uptake and transport in embryonic shoots of Picea abies

Embryonic shoots of Picea abies (L.) Karst, isolated from 10-year-old trees, were excised either with or without the crown. Various short-term uptake experiments (3, 6 and 24 h) and one long-term uptake experiment (4 weeks) were performed with these shoots to obtain information about the physiological role of the crown as translocation barrier for different substances. Transport through the embryonic shoots was followed in both acropetal and basipetal directions using radiolabelled substances supplied in an agarified Schenk and Hildebrandt medium. The medium was labelled with [¹⁴C]-IAA and/or [³²P]-phosphate, or with [³⁵S]-sulphate and ⁸⁶Rb (as a tracer for K⁺). The experiments were conducted in light at 20°C, with the exception of one of the short-term experiments, which was carried out at 5°C to evaluate the connection between transport and metabolism. The main observation is that the crown in its collenchymatous stage of development acts as a selective barrier both acropetally and basipetally for transport of substances such as [¹⁴C]-IAA and [³²P]-phosphate or their metabolized forms. This could explain why the embryonic shoot when cultured plus or minus its crown shows different growth and developmental patterns in vitro.     

Adventitious root formation 'in vitro' in apple rootstocks (Malus pumila) II. Uptake and distribution of indol-3yl-acetic acid during the auxin-sensitive phase in M.9 and M.26

During the auxin-sensitive phase of root initiation, rates of 3-indolyl- [2-¹⁴C] acetic acid (IAA) uptake into the 1 cm bases of shoots of the apple rootstock M.9 ( Malus pumila Mill.) 'in vitro' were not significantly affected by the presence of 10⁻³ M phloroglucinol (PG) using either liquid or agar-solidified media. The use of a liquid medium did however reduce rates of uptake over a 10-day period of auxin application. The distribution of labelled IAA between the 1-cm base and the shoot remainder was not affected by PG.
Exposure of shoots of the difficult-to-root M.9 and the easy-to-root M.26, to 2.8 × 10⁻⁵ M IAA containing [2-¹⁴C] IAA revealed no positive correlation between the amount of label taken up by the 1-cm base and rooting performance. M.9 bases absorbed almost twice as much label as M.26 after 9 days but had produced only one-third as many roots. Measurements of label distribution between the 1-cm base and the shoot remainder showed that less than 10% of the label moved to the shoot remainder over a 6-day period of auxin application. Dose-response curves of IAA and rooting over the range 1 × 10⁻⁵ M and 3 × 10⁻³ M showed that root number in M.9 was at an optimum at 1 × 10⁻³ M IAA after 6 days whilst M.26 required only 1 × 10⁻⁴ M for a similar response. These data support the hypothesis that differences in rooting of the two rootstocks reflect differences in the endogenous metabolism of exogenous IAA and not differences in its rates of uptake or distribution in the shoots.     

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.     

SYNTHESIS AND RELEASE OF [14C]ACETYLCH0LINE IN SYNAPTOSOMES

Abstract— Synaptosomes took up [¹⁴C]choline, about half or more of which was converted to [^I4C]acetylcholine when incubated in an appropriate medium containing 1 to 5 μ M-[¹⁴C] choline and neostigmine. The amount of [¹⁴C]acetylcholine synthesized in synaptosomes increased in parallel with the increase of Na⁺ concentration in the incubation medium. The effect of Na⁺ on the uptake of [^I4C]choline into synaptosomes was dependent on the concentration of choline in the incubation medium.
About 25 per cent of [¹⁴C]acetylcholine synthesized in synaptosomes was released rapidly into the medium by increasing the K⁺ concentration in the medium from 5 m m to 35 m m . The change of Na⁺ concentration hardly affected the release of [¹⁴C]acetylcholine. The effect of K⁺ on the release of [¹⁴C]choline was rather small compared to that on [¹⁴C] acetylcholine. Ouabain promoted the release of [¹⁴C]acetylcholine.     

COMPARTMENTATION AND LABELLING OF AMINO ACIDS IN THE DEVELOPING RAT BRAIN AFTER INJECTION OF [U-14C]RIBOSE

Abstract— [U-¹⁴C]Ribose was given by subcutaneous injection to young rats aged 2–56 days. During the first week after birth ¹⁴C in the brain was found mainly combined in glucose, fructose and sedoheptulose which contained 46–57 per cent of the ¹⁴C in the acid soluble metabolites in the rat brain. In contrast, during the critical period (10–15 days after birth) the ¹⁴C in the free sugars decreased from 24 to 3 per cent, while the ¹⁴C content of amino acids in the brain increased from 11 to 44 per cent of the total perchloric acid-soluble ¹⁴C. The increase in labelling of amino acids during the critical period was attributed to increased glycolysis and increased oxidation of pyruvate. The relative specific radioactivity of y -aminobutyrate and aspartate in the rat brain at 28 days after birth was equal to or greater than the relative specific radioactivity of glutamate. Assuming that the increase in amino acid content following the cessation of cell proliferation in the brain is located mainly in cell processes (cytoplasm of axons, dendrites, glial processes and nerve terminals), tentative values were estimated for the pool sizes of glutamate, glutamine, aspartate and y -amino butyrate.     

Chlorophyll-protein levels and degree of thylakoid stacking in radish chloroplasts from high-light, low-light and bentazon-treated plants

Lemna gibba plants were incubated aseptically on medium containing labelled 10^-7 M indole-3-acetic acid (IAA-1-¹⁴C). Most of the radioactivity disappeared from the culture medium during a 24 h light period. A high percentage of the loss was due to photolysis and only a low percentage of the radioactivity was recovered in the plants. Uptake of ¹⁴C by the plants was strongly stimulated by light. The radioactivity taken up by the plants was the sum of photosynthetically taken up ¹⁴CO₂ and ¹⁴C taken up in IAA. Analyses with the indolo-α-pyrone fluorescence method revealed that the free IAA content was almost the same in plants grown in control and in IAA media for 5 h, whereas the amount of IAA which could be liberated by alkaline hydrolysis was doubled by the presence of IAA in the medium.     

Translocation of 14C-assimilates in roses

The upper shoot on decapitated rose branches ( Rosa hybrids cv. Marimba) grows faster than lower shoots on the same branch. Transport of radioactive assimilates to the upper shoot is higher than to the lower ones. Darkening of the uppermost shoot resulted in the reduction of growth and ^I4C-assimilate accumulation in the darkened shoot as well as the promotion of growth and ¹⁴C transport to the lower 2 shoots, thereby rendering dominance to the second shoot. Benzyladenine treatment to the uppermost shoot reversed the effect of darkening and restored the apical control of this shoot.     

The effect of water status and season on the incorporation of 14CO2 and [14C]-acetate into resin and rubber fractions in guayule

The effects of drought stress and season on both allocation of photosynthates to stems and leaves and potential for stem rubber synthesis were studied in guayule ( Parthenium argentatum Gray USDA line 11604). Two-year-old plants grown under field conditions in the Negev desert of Israel were subjected to different irrigation regimes, and water status was assessed by measuring the relative water content (RWC). Undetached plant tips were exposed to a 1 h pulse of ¹⁴CO₂, followed by a 24 h chase. ¹⁴C fixed and translocated to different plants parts and notably ¹⁴C incorporation into rubber and resin fractions was determined. The potential of detached branch slices to incorporate [¹⁴C]-acetate into rubber was also studied. A higher percentage of fixed ¹⁴C was translocated from shoot tips in winter (28–30%) than in summer (15–18%). The percentage of [¹⁴C]-acctate incorporated into the rubber fraction by stem slices was maximal in winter (20%) and minimal in summer (3–5%) in both cases in the absence of drought stress. In summer the translocation of photosynthates into stems was inversely related to plant RWC, dropping from 18% three days after irrigation to 3% 14 days later, and the potential of stems to synthesise rubber was high under drought conditions and low in well irrigated plants.     

Accumulation of label from radioactive precursors into dry matter by wheat endosperm cultured in vitro

The capacity of in vitro cultured common wheat ( Triticum aestivum L.) endosperms to incorporate starch and protein precursors was investigated. Isolated 2–3 week-old endosperms were cultured up to 2 weeks in a liquid medium containing labelled (¹⁴C)-sucrose and (³H)-glutamine. Cultured endosperms were separated into ethanolsoluble, starch and protein fractions and the incorporation of the label into each of these fractions was assessed at different times after commencement of culture. The same medium was introduced through the peduncle into normally-developing grains, which were then similarly analyzed. Accumulation of both ¹⁴C and ³H in the ethanol-soluble fraction occurred, at a decreasing rate, only during the first 3 days, and then ceased. The accumulated label in the starch fraction, which originated mainly as ¹⁴C sucrose, proceeded at a relatively constant rate for one week and reached only about 1/5 of the expected in vivo starch production. Incorporation of both isotopes into the protein fraction reflected similar utilization of sucrose and glutamine from the medium (molar base), decreasing in rate with time. Culturing beyond one week produced deteriorated endosperms. Compared to cultured endosperms, normally-developing grains incorporated proportionally less precursors into the ethanol-soluble and more into the insoluble fraction. It is suggested that the reduced starch and protein synthesis in cultured grains stems from impaired capacity of the biosynthetic machinery rather than from low availability of precursors.     

IN VIVO FORMATION AND CATABOLISM OF [14C]HISTAMINE IN MOUSE BRAIN

Abstract— The formation of histamine in brain was studied in mice injected with l -[¹⁴C]-histidine (ring 2-¹⁴C) intravenously (i.v.) or intracerebrally; [¹⁴C]histamine appeared rapidly and exhibited a rapid rate of turnover. Drugs known to block various pathways of histamine catabolism were tested for effects on brain–[¹⁴C]histamine and [¹⁴C]-methyl-histamine in mice given (1) [¹⁴C]histamine i.v., (2) [¹⁴C]histamine intracerebrally, and (3) l -[¹⁴C]histidine i.v. Blood-borne histamine did not enter brain; brain histamine was formed locally by decarboxylation of histidine Methylhistamine did cross the blood-brain barrier. Methylation was the major route of histamine catabolism in mouse brain and some of the methylhistamine formed was destroyed by monoamine oxidase. No evidence for catabolism by the action of diamine oxidase was found.     

Microbial transformation of labile dissolved organic matter into humic-like matter in seawater

Abstract Microbial transformation of labile, low molecular weight dissolved organic matter (DOM) into dissolved humic matter (DHM) was studied in seawater. Surface water samples were amended with [¹⁴C into ¹⁴CO₂, TO¹⁴C (total organic ¹⁴C), and PO¹⁴C (particulate organic ¹⁴C), was measured over time in confined samples. The humic and non-humic fractions of DO¹⁴C (dissolved organic ¹⁴C) were separated according to a common operational definition of DHM based on adsorption on XAD-8 macroporous resin. Both TO¹⁴C and non-humic DO¹⁴C decreased during the experiments. However, ¹⁴C-labelled DHM increased during the first week of the incubations, to a level where it comprised 15% of the TO¹⁴C remaining in the samples, or 3% of the initially added ¹⁴C. Towards the end of experiments (ca 70 days), the humic fraction of DO¹⁴C gradually approached the background level of poisoned control samples. Provided that the XAD-8 operational definition of DHM is accepted, this study indicates that humic matter may be formed in seawater within days from labile monomers such as glucose.     

Distribution of [14C]-labeled photosynthates within intensively cultured Populus clones during the establishment year

Seasonal patterns of [¹⁴C]-labeled photosynthate distribution within two intensively cultured Populus clones with contrasting phenology ( P. tristis × P. balsamifera cv. 'Tristis no. 1'; P. × euramericana cv. Eugenei) were investigated during the establishment year. During active shoot elongation upper mature leaves exported ¹⁴C acropetally to the expanding leaves and elongating internodes, and basipetally to the stem. Little ¹⁴C was exported to lower mature leaves or lateral branches. At budset the ¹⁴C export pattern shifted dramatically in the basipetal direction, i.e., to the lower stem, hardwood cutting, and roots. The timing of budset was the primary factor determining the differences between the clones, except that in all cases Tristis exported more ¹⁴C to the roots than Eugenei. After budset lower mature leaves had a similar export pattern to upper leaves, but the quantity of ¹⁴C exported to the roots was slightly higher. The results confirm the importance of autumn foliage for root growth in poplar. Clonal differences in seasonal patterns of photosynthate distribution offer potential for the poplar breeder seeking to match a clone's growth pattern with the specific growing season of the site.     

Lumiflavin and Lumichrome Transport in the Central Nervous System

Abstract: The transport of the lipid-soluble sugarless flavins, [¹⁴C]lumiflavin and [¹⁴C]lumichrome, into and from the isolated choroid plexus and brain slices was studied in vitro. The isolated choroid plexus accumulated both [¹⁴C] flavins by a saturable, energy-requiring process that did not depend on binding or intracellular metabolism of the [¹⁴C] flavins. Both sugar-containing and sugarless flavins, as well as cyclic organic acids, significantly inhibited [¹⁴C]lumiflavin and [¹⁴C]Iumichrome uptake by the isolated choroid plexus. Within 2.5 min, 75% of the [¹⁴C]lumiflavin accumulated by the isolated choroid plexus was released into the medium. Brain slices accumulated [¹⁴C]lumiflavin by a saturable process that did not meet all the criteria for active transport. Ninety-five percent of the [¹⁴C]lumiflavin accumulated by brain slices was released into the medium within 7.5 min. In vivo , 2 h after the intraventricular injection of 6.5 nmol [¹⁴C]lumiflavin, almost all of the [¹⁴C]flavin was cleared from the CNS. Addition of 3.5 μmol FMN to the intraventricular injectate significantly decreased the clearance of [¹⁴C]lumiflavin from the CNS. These studies document that the sugarless flavins are transported by the flavin transport systems in the CNS.     

Conversion of sucrose to starch in the developing Pennisetum typhoides grain

Developing grains of pearl millet ( Pennisetum typhoides Burm. S & H cv. PIB 155) were sampled and analyzed for starch and its free-sugar precursors. The activities of invertase, sucrose-ADP (UDP) glucosyl transferase and of α-amylase and β-amylase in relation to the rate of starch accumulation in the developing grain were assayed. By culturing detached ears, the incorporation of ¹⁴C from free sugar precursors to starch was studied. The starch content gradually increased until grain maturity. The rate of starch accumulation was maximum around 12 days after anthesis. Around this period, the activities of sucrose-ADP(UDP) glucosyl transferase and α-amylase, β-amylase were also at a peak. Invertase activity was high during the early period of grain development but gradually declined as the grains matured. In the most actively metabolising milky grains, incorporation of ¹⁴C from [¹⁴C]-sugars to starch was maximum in the mid mid-milky grains. Addition of 20 m M K⁺ to the culture solution did not affect the incorporation of ¹⁴C from supplied sucrose to the free sugar pool and to the starch of the grain, but Mg²⁺ supply at 20 m M concentration lowered ¹⁴C incorporation from exogenous sucrose to grain free sugars, although the utilization of the latter for starch synthesis was enhanced.     

Distribution and metabolism of root-applied cytokinins in Pisum sativum

When N ⁶ [8–¹⁴C] furfuryladenine was applied to the intact root system of Pisum sativum L. cv. Meteor seedlings it was almost completely metabolised to other compounds within 24 h. Of the total activity recovered from the plants 94.5% was retained in the root system itself. ¹⁴C was recovered in a number of ethanol-soluble compounds and in ribonucleic acid, deoxyribonucleic acid and protein fractions of roots, stems, leaves and axillary buds. In rapidly growing axillary buds released from apical dominance by removal of the shoot apex the combined nucleic acid fractions accounted for 63.3% of the total ¹⁴C recovered from these organs. Xylem exudate collected from decapitated plants 0 to 12 h after supplying N ⁵[8–¹⁴C]furfuryladenine to the roots consistently contained a single major ¹⁴C-labelled compound which, in three different solvent systems, had the same Rf values as a major endogenous cytokinin isolated from the xylem of unlabelled plants. The content of N ⁶ [8–¹⁴C] furfuryladenine itself in the xylem exudate was always low and in some experiments it could not be detected.
It is suggested that part of the label from N ⁶ [8- ¹⁴CJfurfuryladenine taken up by the intact root system may have become incorporated in an endogenous cylokinin before export to the shoot.     

THE RELEASE OF AMINO ACIDS FROM THE HEMISECTED SPINAL CORD DURING STIMULATION

Abstract— Isolated frog or toad hemicords were incubated for 40 min with either [¹⁴C]glycine, [³H]GABA, l -[¹⁴C]glutamate. l -[¹⁴C]aspartate, l -[¹⁴C]serine, l [¹⁴C]threonine or l -[³H]leucine, and the release of these compounds from the cord was measured under resting conditions and during electrical stimulation. Stimulation of spinal roots produced no significant change in the efflux of any of the compounds tested. Direct stimulation of the rostral cord however, produced a large increase in the efflux of [¹⁴C]glycine, [³H]GABA, l -[¹⁴C]glutamate and l -[¹⁴C]aspartate. These increased effluxes were calcium dependent, the effects of stimulation being reduced in a calcium-free, or magnesium-supplemented (10 mM) medium. Stimulation failed to produce an increase in the efflux of l -[¹⁴C]serine, l -[¹⁴C]threonine, l -[¹⁴H]leucine, [¹⁴C]mannitol or [¹⁴C]urea. These results are consistent with the suggestions that glycine, GABA, glutamate and aspartate may be synaptic transmitters in the spinal cord.     

Metabolism of [14C]-indole-3-acetic acid by soybean callus and hypocotyl sections

Metabolism of indole-3-acetic acid in soybean [ Glycine max (L.) Merr.] was investigated with [1-¹⁴C]- and [2-¹⁴C]-indole-3-acetic acid (IAA) applied by injection into soybean hypocotyl sections and by incubation with soybean callus. Free IAA and its metabolites were extracted with 80% methanol and separated by high performance liquid chromatography with [³H]-IAA as an internal standard. Metabolism of IAA in soybean callus was much greater than that in tobacco ( Nicotiana tabacum L.) callus used for comparison. High performance liquid chromatography of soybean extracts showed at least 10 metabolite peaks including both decarboxylated and undecarboxylated products. A major unstable decarboxylated metabolite was purified. [¹⁴C]-indole-3-methanol (IM) was three times more efficient than [2-¹⁴C]-IAA as substrate for producing this metabolite. It was hydrolyzable by β-glucosidase (EC 3.2.1.21), yielding an indole and D-glucose. The indole possessed characteristics of authentic IM. Thus, the metabolite is tentatively identified as indole-3-methanol-β-D-glucopyranoside. The results suggest that soybean tissues are capable of oxidizing IAA via the decarboxylative pathway with indole-3-methanol-glucoside as a major product. The high rate of metabolism of IAA may be related to the observed growth of soybean callus with high concentrations of IAA in the culture medium.     

14C-LABELLED AMINO ACIDS AND GLUCOSE IN RAT BRAIN AND LIVER AFTER INJECTION OF [2-14C]PROPIONATE

Abstract— [2-¹⁴C]Propionate injected into rats was metabolized into [¹⁴C]glucose and ¹⁴C-labelled aspartate, glutamate, glutamine and alanine. The results are consistent with the conversion of propionate into succinate and the oxidation of succinate into oxaloacetate, the precursor of labelled amino acids and the substrate for gluconeogenesis.
The ratio of the specific radioactivity of glutamine to glutamate was greater than 1 during the 30 min period in the brain, indicating that propionate taken up by the brain was metabolized mainly in the 'small glutamate compartment' in the brain. The results, therefore, support the previous conclusion (G aitonde , 1975) that the labelling of amino acids by [¹⁴C]propionate formed from [U-¹⁴C>]-threonine in thiamin-deficient rats was metabolized in the 'large glutamate compartment' of the brain.
The specific radioactivity ratio of glutamine to glutamate in the liver was less than 1 during the 10 min period but greater than 1 at 30min. These findings which gave evidence against metabolic compartments of glutamate in the liver, were interpreted as indicative of the entry of blood-borne [¹⁴C]glutamine synthesized in other tissues, e.g. brain. The labelling of amino acids when compared to that after injection of [U-¹⁴C]glucose showed that [2-¹⁴C]propionate was quantitatively a better source of amino acids in the liver. The concentration of some amino acids in the brain and liver was less in the adult than in the young rats, except for alanine and glutathione, where the liver content was more than double that in the adult.