Incorporation of 15N and 14C of methionine into the mugineic acid family of phytosiderophores in iron-deficient barley roots

The role of methionine as a precursor in mugineic acid (MA) biosynthesis was studied by feeding ¹⁵N-ammonium sulfate, ¹⁴C-amino acids, and [1-¹⁴C, ¹⁵N]-methionine to iron-deficient barley roots ( Hordeum vulgare L. cv. Minorimugi), grown hydroponically. The incorporation of isotopes into amino acids was also examined. Methionine appears to be the most efficient precursor of the mugineic acid family (MAs) of phytosiderophores; homoserine was also incorporated into the MAs, but other amino acids such as glutamate, alanine, and γ-amino butyric acid did not act as precursors of MAs. Carbon-14 and ¹⁵N of methionine were incorporated into MAs. This specific incorporation of ¹⁴C and ¹⁵N indicated that the nitrogen atoms of MAs were derived from two molecules of methionine. It is suggested that deoxymugineic acid (DMA) is probably the first phytosiderophore to be synthesized on the biosynthetic pathway of MAs.     

Natural 13C and 15N abundance of field-collected fungi and their ecological implications

The natural abundance of ¹³C and ¹⁵N was measured in basidiocarps of at least 115 species in 88 genera of ectomycorrhizal, wood-decomposing and litter-decomposing fungi from Japan and Malaysia. The natural abundance of ¹³C and ¹⁵N was also measured in leaves, litter, soil and wood from three different sites. ¹⁵N and ¹³C were enriched in ectomycorrhizal and wood-decomposing fungi, respectively, relative to their substrates. Ectomycorrhizal and wood-decomposing fungi could be distinguished on the basis of their δ¹³C and δ¹⁵N signatures. Although there was high variability in the isotopic composition of fungi, the following isotope- enrichment factors (ε, mean±SD) of the fungi relative to substrates were observed:
ε_{ectomycorrhizal fungi/litter} = 6.1±0.4‰¹⁵N
ε_{ectomycorrhizal fungi/wood} = 1.4±0.8‰¹³C
ε_{wood-decomposing fungi/wood} = −0.6±0.7‰¹⁵N
ε_{wood-decomposing fungi/wood} = 3.5±0.9‰¹³C
The basis of isotope fractionation in C metabolism from wood to wood-decomposing fungus is discussed.     

Fractionation of δ15N and δ13C for Atlantic salmon and its intestinal cestode Eubothrium crassum

Stable isotopes of nitrogen (δ¹⁵N) and carbon (δ¹³C) were measured for Atlantic salmon Salmo salar and their intestinal cestode, Eubothrium crassum , sharing the same diet. Atlantic salmon muscle tissues were enriched in ¹⁵N and depleted in ¹³C compared to their prey (sprat Sprattus sprattus sprattus ) and their intestinal cestode. There was no significant difference in δ¹⁵N or δ¹³C between E. crassum and the sprat. Differences in nutrient uptake and intestine physiology between Atlantic salmon and E. crassum are discussed, as well as how these may give rise to different fractionations of stable isotopes between a host and its parasites. Furthermore, Atlantic salmon contained a significantly higher lipid content than their prey, which may partly explain differences in δ¹³C values between the host and its cestode. In addition, cestodes inhabiting lipid-rich hosts were also lipid rich. Larger Atlantic salmon were enriched in ¹⁵N compared to smaller fish. Cestodes inhabiting large hosts were also enriched in ¹⁵N compared to parasites living in smaller hosts. The last two results were explained by larger fish possibly feeding from a higher trophic level, or from larger and older prey, that resulted in both a higher lipid content and an enrichment in ¹⁵N.     

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.     

Starvation and low feeding levels result in an enrichment of 13C in lipids and 15N in protein of Nile tilapia Oreochromis niloticus L.

The influence of different feeding levels below and slightly above maintenance on whole body δ¹³C and δ¹⁵N values of Nile tilapia Oreochromis niloticus was examined. The energy budget of each fish was determined by indirect calorimetry. The δ¹³C values of the lipid-free material of Nile tilapia fed below and slightly above maintenance level did not differ between the feeding groups, but the δ¹³C values in the lipids and the δ¹⁵N values of the lipid-free material showed small but significant differences. Those fish with a negative lipid retention had significantly higher δ¹³C values in the lipid fraction compared to fish that synthesized fatty acids. There was a significant negative correlation between the amount of energy metabolized by the fish and both the δ¹³C values in the lipids and the δ¹⁵N values of the lipid-free material. Fasting and feeding below the maintenance level may influence the isotopic composition of animals and should therefore be considered in ecological and nutritional studies.     

Production of [14C]Acetylcholine and [14C]Carbon Dioxide from [U–14C]Glucose in Tissue Prisms from Aging Rat Brain

Abstract: Production of [¹⁴C]acetylcholine and ¹⁴CO₂ was examined by using tissue prisms from neocortex, hippocampus, and striatum from rats aged approximately 5 months, 13 months, and 27 months. [¹⁴C]Acetylcholine synthesis in the striatum showed highly significant decreases with age for measurements in the presence of both 5 m m - and 31 m m -K⁺, contrasting with the lack of significant change in ¹⁴CO₂ production in this region. The neocortex and hippocampus showed only small changes, especially when comparison was made between 13-month and senescent animals. Measurements of the release of [¹⁴C]acetylcholine and influence of atropine on this release confirmed the relative stability with age of the cholinergic system in the neocortex.     

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.     

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.     

Bulk leaf δ18O and δ13C reflect the intensity of intraspecific competition for water in a semi-arid tussock grassland

We investigated the extent to which plant water and nutrient status are affected by intraspecific competition intensity and microsite quality in a monodominant tussock grassland. Leaf gas exchange and stable isotope measurements were used to assess the water relations of Stipa tenacissima tussocks growing along a gradient of plant cover and soil depth in a semi-arid catchment of Southeast Spain. Stomatal conductance and photosynthetic rate decreased with increasing intensity of competition during the wet growing season, leading to foliar δ ¹⁸O and δ ¹³C enrichment. A high potential for runoff interception by upslope neighbours exerted strong detrimental effects on the water and phosphorus status of downslope S. tenacissima tussocks. Foliar δ ¹⁵N values became more enriched with increasing soil depth. Multiple stepwise regression showed that competition potential and/or rhizosphere soil depth accounted for large proportions of variance in foliar δ ¹³C, δ ¹⁸O and δ ¹⁵N among target tussocks (57, 37 and 64%, respectively). The results presented here highlight the key role that spatial redistribution of resources (water and nutrients) by runoff plays in semi-arid ecosystems. It is concluded that combined measurement of δ ¹³C, δ ¹⁸O and nutrient concentrations in bulk leaf tissue can provide insight into the intensity of competitive interactions occurring in natural plant communities.     

STUDY OF RNA IN SUBCELLULAR FRACTIONS FROM RAT BRAIN: SIMULTANEOUS INCORPORATION OF [14C]URIDINE AND [3H]METHYL-l-METHIONINE

Abstract— By using a combination of subcutaneous and intraventricular injections of [¹⁴C]uridine and [³H]methyl- l -methionine we have obtained maximum incorporation in about 40 min of both radioactive precursors into nuclear RNA from rat brain. In this nuclear fraction we found at least two different types of RNA that were rapidly labelled. One of them incorporated both [¹⁴C]uridine and [³H]methyl groups and seemed to correspond to species of rRNA and their precursors. The other RNA fraction was less methylated or non-methylated and exhibited sedimentation coefficients distributed along a continuous 8–30 % sucrose density gradient. At least part of the latter type of RNA very probably was mRNA, but much of it must conespond to a different RNA similar to that recently described in HeLa cells by P enman , V esco and P enman (1968).
We also found that labelled 185 and 285 rRNA components began leaving the nucleus for the cytoplasm within 24 to 33 min after the radioactive precursors had been injected, and, in the cytoplasmic fraction, the patterns of incorporation for [¹⁴C]uridine and [³H]-methyl groups were similar for the 18S and 28S rRNA components. We estimate that in this fraction of rat brain the 18S rRNA component was 1·4 times more methylated than the 28S component. We also detected a lower sedimentation coefficient for the non- or slightly methylated, species of soluble RNA found in the cytoplasmic fraction.     

UPTAKE OF [14C]ASPARTIC ACID AND [14C]GLUTAMIC ACID BY RETINAL SYNAPTOSOMAL FRACTIONS

Abstract— Uptake systems for [¹⁴C]aspartate and [¹⁴C]glutamate were characterized in two distinct synaptosomal fractions solated from rabbit retina. The P, synaptosomal fraction was highly enriched in large photoreceptor cell synaptosomes but contained very few conventional sized synaptosomes from amacrine, horizontal or bipolar cells. In contrast, the P₂ synaptosomal fraction contained numerous conventional sized synaptosomes and was virtually free of photoreceptor cell synaptosomes. Both synaptosomal fractions took up [¹⁴C]aspartate and [¹⁴C]glutamate with high affinity [ K _m= 1–2μM). Uptake characteristics were similar to those described for high affinity uptake systems in brain synaptosomes, i.e. saturation kinetics; temperature and Na⁺ dependence. Although the presence of a high affinity uptake system is not a definitive criterion for demonstration of functional neurotransmitter systems, it is an important and necessary prerequisite and can thus be considered as supportive evidence for the involvement of asparate and glutamate in neurotransmission in rabbit retina.     

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.     

METABOLISM OF GLUCOSE AND FREE AMINO ACIDS IN BRAIN, STUDIED WITH 14C-LABELLED GLUCOSE AND BUTYRATE IN RATS INTOXICATED WITH CARBON DISULPHIDE

Abstract— The effect of 15 h continuous exposure to CS₂ on the metaboliam of glucose and free amino acids in the brain of rats was studied. CS₂ caused a moderate hypoglycaemia. There were also changes in the amounts of some amino acids in the brain. Glutamate and γ-aminobutyrate were lower whereas glutamine was markedly increased. Comparative studies in vivo of the metabolism of [2-¹⁴C]glucose and [1-¹⁴C]butyrate indicated that CS₂ did not affect glycolysis or the incorporation of ¹⁴C from glucose into amino acids except into γ-aminobutyrate which was reduced. Contrary to the findings with [¹⁴C]glucose, CS₂ provoked distinct changes in the labelling of amino acids when [¹⁴C]butyrate was the precursor. The most notable change was a markedly increased incorporation of ¹⁴C into glutamine. Based on the two-compartment model of brain glutamate the experimental findings indicated that CS₂ affected metabolism associated with the 'small' pool of glutamate but had a minimal effect on metabolism associated with the 'large' glutamate pool. The possibility is suggested that the changes observed involved an increased rate of ammonia removal. The low incorporation of ¹⁴C into γ-aminobutyrate from either precursor is consistent with other evidence showing that CS₂ interferes with pyridoxal phosphate-dependent enzymes.     

Using the δ13C and δ15N of whitefish scales for retrospective ecological studies: changes in isotope signatures during the restoration of Lake Geneva, 1980–2001

The scales of whitefish Coregonus lavaretus were used in place of dorsal muscle, which necessitates killing the fish, to study food webs from the δ¹³C and δ¹⁵N isotopic ratios in the organic fraction. As scales are composed of both organic and calcified fractions, a protocol for scale decalcification was first devised. The δ¹³C and δ¹⁵N values of the decalcified scales were then shown to be closely correlated to those of the dorsal muscle, demonstrating that scales could be used in place of muscle to study food webs. Changes in the δ¹³C of whitefish were determined from a scale collection that extended over the period during which the trophic state of Lake Geneva was recovering.     

Glucose Metabolism in the Developing Cerebral Cortex as Detected by 1H{13C} Nuclear Magnetic Resonance Spectroscopy Ex Vivo

Abstract: Metabolism of [1-¹³C]glucose was monitored in superfused cerebral cortex slice preparations from 1-, 2-, and 5-week-old rats using ¹H-observed/¹³C-edited (¹H{¹³C}) NMR spectroscopy. The rate of label incorporation into glutamate C-4 did not differ among the three age groups: 0.52–0.67% of total ¹H NMR-detected glutamate/min. This was rather unexpected, as oxygen uptake proceeded at 1.1 ± 0.1, 1.9 ± 0.1, and 2.0 ± 0.1 µmol/min/g wet weight in brain slices prepared from 1-, 2-, and 5-week-old animals, respectively. Steady-state glutamate C-4 fractional enrichments in the slice preparations were ∼23% in all age groups. In the acid extracts of slices glutamate C-4 enrichments were smaller, however, in 1- and 2-week-old (17.8 ± 1.7 and 16.8 ± 0.8%, respectively) than in 5-week-old rats (22.7 ± 0.7%) after 75 min of incubation with 5 m M [1-¹³C]glucose. We add a new assignment to the ¹H{¹³C} NMR spectroscopy, as acetate C-2 was detected in slice preparations from 5-week-old animals. In the acid extracts of slice preparations acetate C-2 was labeled by ∼30% in 5-week-old rats but by 15% in both 1- and 2-week-old animals, showing that the turnover rate was increased in 5-week-old animals. In the extracts 3–4% of the C-6 of N -acetyl-aspartate (NAA; CH₃ of the acetyl group) contained label as determined by both NMR and mass spectrometry, which indicated that there was no significant labeling to other carbons in NAA. NAA accumulated label from [1-¹³C]glucose but not from [2-¹³C]acetate, and the rate of label incorporation increased by threefold on cerebral maturation.     

The fate of carbon during the assimilation of carbamoyl phosphate in white spruce seedlings as revealed by [14C]-carbamoyl phosphate, [14C]-cyanate, and [14C] -bicarbonate labeling patterns

The fate of carbamoyl phosphate in white spruce seedlings revolves around the production of spontaneous degradation products, cyanate, bicarbonate, and carba-mate. When [¹⁴C]-carbamoyl phosphate and [¹⁴C]-cyanate are assimilated, urea is a common early metabolic intermediate that appears in the alcohol soluble N. By contrast, urea is not detected among the products of [¹⁴C]-bicarbonate. Carbamoyl phosphate and glutamic acid are implicated as having pivotal roles in the production of amides, arginine, and biotin. Within 2-h exposures to radioactive substrates considerably more carbon from bicarbonate was diverted into amino acids Incorporated into proteins than with carbon-nitrogen substrates. Specific activities of bound amino acid residues support the view that proteins formed from these [¹⁴C]-substrates have different rates of metabolic turnover.     

Natural 15N enrichment of amide-exporting legume nodules

The natural ¹⁵N abundance of amide-exporting nodules was compared to that of shoots in 12 plant species. Nodules were statistically less abundant in ¹⁵N than shoots in one of three cultivars of Pisum sativum L., in Vicia faba L. and in Medicago sativa L., but the ¹⁵N depletion of nodules was very samall. Nodules were statistically more abundant in ¹⁵N than shoots in Trifolium pratense L., depending on time during the growing season, Cyamopsis tetragonaloba L. Taub. and 7 Lupinus species, but the enrichment was small except for C. tetragonalova and 6 Lupinus species. Nodules of 3 Lupinus species infected with Rhizobium lupini isolated from Lupinus subcarnosa Hook, were only slightly enriched in ¹⁵N, but nodules of two of these species were substantially enriched in ¹⁵N when infected with a mix of other Rhizobium lupini strains. The third species, L. texensis Hook., was not infected by this mix of strains. Differences in ¹⁵N abundance between nodules and other tissues of amide-exporting and ureide-exporting nodules from several studies are tabulated. All ureide-exporting nodules in this tabulation are enriched in ¹⁵N. Amide-exporting nodules are considerably more variable in this regard. These results confirm that events associated with ureide synthesis or transport cannot be the sole cause of the substantial ¹⁵N enrichment seen in nodules.     

Traffic exposure increases natural 15N and heavy metal concentrations in mosses

Mosses have been used as biomonitors of atmospheric pollution for some years, but few studies have been carried out on the effect of NO_x emissions from traffic on moss tissue N. Eight species of moss (102 samples) growing on walls or roofs next to roads exposed to different traffic densities were collected from urban and rural sites in the UK. The shoots were sampled for total N, their stable isotope ¹⁵N/¹⁴N content (δ¹⁵N) and heavy metal content (Pb, Zn). There was a lack of correlation between tissue total N and traffic exposure, but a very good correlation between traffic exposure and tissue δ¹⁵N. Plants collected near motorways or busy urban roads had δ¹⁵N values ranging between +6 and −1‰, while in rural areas with hardly any traffic these ranged from −2 to −12‰. In a separate survey of mosses, the average δ¹⁵N of shoots from busy roadsides in London was +3.66‰, whereas from samples collected from farm buildings near poultry or cattle pens it was −7.8‰. This indicates that the two main atmospheric N sources, NO_x and NH_x, have different δ¹⁵N signatures, the former tending to be positive and the latter negative. Tissue concentrations of both Pb and Zn show a strong positive correlation with traffic exposure, with Zn in particular being greater than Pb. The results are discussed with regard to the use of moss tissue Zn as a means for monitoring or mapping pollution from vehicles, and of δ¹⁵N as an aid to distinguish between urban (NO_x) and rural (NH_x) forms of N pollution.     

How to account for the lipid effect on carbon stable-isotope ratio (δ13C): sample treatment effects and model bias

This study investigated the impact of lipid extraction, CaCO₃ removal and of both treatments combined on fish tissue δ¹³C, δ¹⁵N and C:N ratio. Furthermore, the suitability of empirical δ¹³C lipid normalization and correction models was examined. δ¹⁵N was affected by lipid extraction (increase of up to 1·65‰) and by the combination of both treatments, while acidification alone showed no effect. The observed shift in δ¹⁵N represents a significant bias in trophic level estimates, i.e. lipid-extracted samples are not suitable for δ¹⁵N analysis. C:N and δ¹³C were significantly affected by lipid extraction, proportional to initial tissue lipid content. For both variables, rates of change with lipid content (ΔC:N and Δδ¹³C) were species specific. All tested lipid normalization and correction models produced biased estimates of fish tissue δ¹³C, probably due to a non-representative database and incorrect assumptions and generalizations the models were based on. Improved models need a priori more extensive and detailed studies of the relationships between lipid content, C:N and δ¹³C, as well as of the underlying biochemical processes.     

Synthesis and proof-of-function of a [14C]-labelled form of the plant iron chelator nicotianamine using recombinant nicotianamine synthase from barley

The amino acid nicotianamine (NA) is essential for micronutrient metabolism in plants. Lack of NA results in a chlorotic phenotype and oxidative stress, since NA is a chelator of iron and other metal nutrients. To investigate the precise cellular function of NA in micronutrient transport and homeostasis, a protocol for the production of [¹⁴C]-labelled NA was developed. Recombinant NA synthase was used to generate [¹⁴C]-NA from [¹⁴C]- S -adenosylmethionine. After purification by solid-phase ion exchange about 66% yield was achieved. The identity of the [¹⁴C]-NA with chemically synthesized NA was demonstrated by several independent methods, including two TLC systems, two HPLC systems and immuno-detection. Moreover, biological function was shown by complementation of the Lycopersicon esculentum mutant chloronerva that is free of NA due to a defect in NA synthase. Proof-of-function for the produced [¹⁴C]-NA as a suitable tool for transport studies was provided monitoring the distribution of [¹⁴C]-NA after feeding to tomato and Ricinus communis seedlings.