Labelling of lipids by D-[1-14C]glucose, D-[6-14C]glucose and D-[3-3H]glucose in pancreatic islets from normal and GK rats

In pancreatic islets prepared from either normal or GK rats and incubated at either low (2.8 mM) or high (16.7 mM) D-glucose concentration, the labelling of both lipids and their glycerol moiety is higher in the presence of D-[1-¹⁴C]glucose than D-[6-¹⁴C]glucose. The rise in D-glucose concentration augments the labelling of lipids, the paired ¹⁴C/³H ratio found in islets exposed to both D-[1-¹⁴C]glucose or D-[6-¹⁴C]glucose and D-[3-³H]glucose being even slightly higher at 16.7 mM D-glucose than that found, under otherwise identical conditions, at 2.8 mM D-glucose. Such a paired ratio exceeds unity in islets exposed to D-[1-¹⁴C]glucose. The labelling of islet lipids by D-[6-¹⁴C]glucose is about 30 times lower than the generation of acidic metabolites from the same tracer. These findings indicate (i) that the labelling of islet lipids accounts for only a minor fraction of D-glucose catabolism in pancreatic islets, (ii) a greater escape to L-glycerol-3-phosphate of glycerone-3-phosphate generated from the C₁-C₂-C₃ moiety of D-glucose than D-glyceraldehyde-3-phosphate produced from the C₄-C₅-C₆ moiety of the hexose, (iii) that only a limited amount of [3-³H]glycerone 3-phosphate generated from D-[3-³H]glucose is detritiated at the triose phosphate isomerase level before being converted to L-glycerol-3-phosphate, and (iv) that a rise in D-glucose concentration results in an increased labelling of islet lipids, this phenomenon being somewhat more pronounced in the case of D-[1-¹⁴C]glucose or D-[6-¹⁴C]glucose rather than D-[3-³H]glucose.     

In vitro oxidation of [U-14C] palmitate, [1-14C] and [6-14C] glucose in newborn and adult rats and pigs

Studies have been made on the intensity of oxidation of [U-14C]-palmitate, [1-14C]- and [6-14C]-glucose by slices of the liver and skeletal muscles of new-born, 1-day, 5-day and adult Wistar rats and domestic pigs. It was found that the level of 14CO2 production from these substrates is higher in tissues of rats than in those of pigs. At early stages of ontogenesis, in tissues of both species intensive oxidation of glucose is observed together with oxidation of fatty acids. In the course of ontogenetic development, the intensity of glucose utilization significantly decreases, whereas the level of fatty acid catabolism remains relatively unaffected.     

Use of [2-14C]glucose and [5-14C]glucose for evaluating the mechanism and quantitative significance of the ''liver-cell'' pentose cycle.

1. Expressions are derived for the steady-state measurement of the quantitative contribution of the liver-type pentose phosphate cycle to glucose metabolism by tissues. One method requires the metabolism of [5-14C]glucose followed by the isolation and degradation of glucose 6-phosphate. The second procedure involves the metabolism of [2-14C]glucose and the isolation and degradation of a triose phosphate derivative, usually lactate or glycerol. 2. Measurements of 14C in C-2 and C-5 of glucose 6-phosphate are required and the values of the C-2/C-5 ratios can be used to calculate the quantitative contribution of the L-type pentose cycle in all tissues. 3. The measurement of 14C in C-1, C-2 and C-3 of triose phosphate derivatives can be used to calculate the quantitative contribution of the L-type pentose cycle relative to glycolysis. 4. The effect of transaldolase and transketolase exchange reactions, reactions of gluconeogenesis and non-oxidative formation of pentose 5-phosphate, isotopic equilibration of triose phosphate pools and isotopic equilibration of fructose 6-phosphate and glucose 6-phosphate, which could interfere with a clear interpretation of the data using [2-14C]- and [5-14C]glucose are discussed.     

Microbial growth on C1 compounds: Uptake of [14C]formaldehyde and [14C]formate by methane-grown Pseudomonas methanica and determination of the hexose labelling pattern after brief incubation with [14C]methanol

1. A study has been made of the incorporation of carbon from [¹⁴C]formaldehyde and [¹⁴C]formate by cultures of Pseudomonas methanica growing on methane. 2. The distribution of radioactivity within the non-volatile constituents of the ethanol-soluble fractions of the cells, after incubation with labelled compounds for periods of up to 1min., has been analysed by chromatography and radioautography. 3. Radioactivity was fixed from [¹⁴C]formaldehyde mainly into the phosphates of the sugars, glucose, fructose, sedoheptulose and allulose. 4. Very little radioactivity was fixed from [¹⁴C]formate; after 1min. the only products identified were serine and malate. 5. The distribution of radioactivity within the carbon skeleton of glucose, obtained from short-term incubations with [¹⁴C]methanol of Pseudomonas methanica growing on methane, has been investigated. At the earliest time of sampling over 70% of the radioactivity was located in C-1; as the time increased the radioactivity spread throughout the molecule. 6. The results have been interpreted in terms of a variant of the pentose phosphate cycle, involving the condensation of formaldehyde with C-1 of ribose 5-phosphate to give allulose phosphate.     

Estimation of cholinesterase and choline acetyltransferase in bovine anterior pituitary, posterior pituitary, and pineal body

Acetylcholinesterase (AChE) and butyrylcholinesterase (BuChE) were estimated colorimetrically with thiocholine (SCh) esters as substrates in homogenates of bovine anterior pituitary (AP), posterior pituitary (PP), and pineal body (PB), and the levels were referred to those of whole rat brain. The levels of BuChE were very similar in all four tissues, approximately 10.25 μm -BuSCh hydrolysed/g tissue/hr; indicating that this enzymic activity represents a common structural component, perhaps vascular elements. Acetyl-thiocholine (ASCh) hydrolysis by AChE for brain, PP, PB, and AP was 338, 37,24, and 6 μm /g/hr, respectively. Choline acetyltransferase (ChAc) was estimated by the formation of [¹⁴C]acetylcholine from [¹⁴C]acetyl CoA. ChAc activity of posterior pituitary was generally found to be 15–20 per cent that of brain; the activity was always lowest in the anterior pituitary and pineal body, sometimes undetectable, but generally 5–10 per cent that of brain. The basis for the interpretation that cholinergic components in the posterior pituitary are due to acetylcholme-containing nerve endings and in anterior pituitary and pineal body to axons of sympathetic neurons was discussed.     

Respiration of 14CO2 by intact animals of various species given l-[1-14C]fucose or d-[1-14C]arabinose

The production of ¹⁴CO₂ from l-[1-¹⁴C]fucose and d-[1-¹⁴C]arabinose has been studied in five mammalian species.Cats, guinea pigs, mice, and rabbits respired about 22% of the label of l[1-¹⁴C]fucose or of d-[1-¹⁴C]arabinose within 6 h after intraperitoneal injection of the sugar. Rats respired only 1.5% of the l-fucose label and 5% of the d-arabinose label in the same time period.Liver homogenates from cat, guinea pig, and rabbit produced significantly more ¹⁴CO₂ from l-[1-¹⁴C]fucose or d-[1-¹⁴C]arabinose than mouse or rat liver homogenates. Unlike those of the other species, guinea pig liver homogenates had very low l-fucose dehydrogenase activity.The results suggest that substantial catabolism of l-fucose and d-arabinose occurs in the tissues of some animal species. Investigators wishing to employ l-fucose as a tracer of glycoprotein metabolism must, therefore, ensure that the species that they employ does not metabolize l-fucose to products interfering with their studies.     

Decreased labeling of amino acids by inhibition of the utilization of [3H,14C]glucose via the hexosemonophosphate shunt in rat brain in vivo

Treatment of rats with 6-aminonicotinamide showed a small but significant decrease in the labeling of amino acids in the brain after injection of [³H]acetate. The results of these experiments also gave evidence of the presence of [³H]glucose and [³H]lactate, and an increase in [³H]glucose content in the brain of 6-aminonicotinamide treated rats. To apportion the contribution of [³H]glucose formed by gluconeogenesis from [³H]acetate to the labeling of amino acids a method was formulated based on the measurement of radioactivity of amino acids, lactate and free sugars in brain after injection of [6-³H]glucose or [1-³H]glucose relative to that after co-injection of [U-¹⁴C]glucose or [2-¹⁴C]glucose. In contrast to the expected formation of [1, 6-³H]glucose by gluconeogenesis from [³H]acetate,³H-labeled glucose isolated from brain, blood and liver showed the presence of [6-³H]glucose only. The values corrected for the presence of [6-³H]glucose showed that treatment with 6-aminonicotinamide had no effect on the labeling of amino acids by oxidation of [³H]acetate. These findings indicated that a significant decrease in the labeling of amino acids from [U-¹⁴C]glucose reported previously and again confirmed using [1-³H], [6-³H], [2-¹⁴C] or [U-¹⁴C]glucose in the present investigation was not due to the inhibition of the activities of enzymes of the citric acid cycle. These results support the postulated role of the hexosemonophosphate shunt for the utilization of glucose in providing neurotransmitter amino acids glutamate and -aminobutyrate.Dedicated to Professor K. A. C. Elliott on his 80th birthday.     

Tumor uptake studies of d,l-[5-14C]ornithine and d,l-2-difluoromethyl[5-14C]ornithine

The feasibility of d,l-[5-¹⁴C]ornithine ([¹⁴C]ornithine), a precursor for polyamine synthesis, and d,l-2-difluoromethyl[5-¹⁴C]ornithine ([¹⁴C]DFMO), an irreversible inhibitor of ornithine decarboxylase (ODC) were investigated for tumor localization. As an animal model, mice bearing mammary carcinoma, FM3A, were used. After i.v. injection of [¹⁴C]ornithine accumulation of radioactivity was observed in the FM3A, in which 43% of the ¹⁴C radioactivity was measured in the polyamine pool and 41% in the amino acid pool at 60 min after injection. Tumor uptake of [¹⁴C]DFMO was relatively low but constant during 60 min after injection. At 60 min after injection, 11% of the ¹⁴C was present in the acid-precipitable fraction of the FM3A, which suggests the formation of an irreversible complex of [¹⁴C]DFMO with ODC. For both compounds rapid blood clearance and high tumor-to-organ ratios were observed. Our results indicate that in connection with an enhanced polyamine synthesis in the tumors, the compounds investigated have potential as tracers for tumor detection.     

[1-14C] Acetate assimilation by obligate methylotrophs,Pseudomonas methanica and Methylosinus trichosporium

The oxidation of one carbon compounds (methane, methanol, formaldehyde, formate) and primary alcohols (ethanol, propanol, butanol) supported the assimilation of [1-¹⁴C]acetate by cell suspensions of type I obligate methylotroph; Pseudomonas methanica, Texas strain, and type II obligate methylotroph, Methylosinus trichosporium, strain PG. The amount of oxygen consumed and substrate oxidized correlated with the amount of [1-¹⁴C]acetate assimilated during oxidation of C-1 compounds and primary alcohols.Oxidation of methanol, formaldehyde, and primary alcohols in extracts of Pseudomonas methanica, Texas strain, and Methylosinus trichosporium, strain PG, was catalyzed by a phenazine methosulfate linked, ammonium ion dependent methanol dehydrogenase. The oxidation of aldehydes was catalyzed by a phenazine methosulfate linked, ammonium ion independent aldehyde dehydrogenase. Formate was oxidized by a NAD⁺ linked formate dehydrogenase.Deceased.This work was supported by Grant GB 8173 from the National Science Foundation and by a grant from the Robert A. Welch Foundation.     

THE HEXOSE MONOPHOSPHATE PATHWAY IN ETHYLNITROSOUREA INDUCED TUMORS OF THE NERVOUS SYSTEM

Respiration studies in vitro, in which tissue slices were incubated with [1-¹⁴C]glucose or [6-¹⁴C]glucose and ¹⁴CO₂ collected, resulted in C-1/C-6 ¹⁴CO₂ ratios that were higher in slices of tumor and newborn brain than in slices of adult brain. In adult brain, the C-1/C-6 ¹⁴CO₂ ratio averaged close to unity. In slices of tumor and newborn brain however, the mean C-1/C-6 ratio was greater than three. Addition of phenazine methosulfate (PMS) increased conversion of [1-¹⁴C]glucose to ¹⁴CO₂ in slices of normal adult brain 5-fold, and in slices of newborn brain and tumor, approx 12-fold. Injection of animals with 6-aminonicotinamide (6-AN) decreased conversion of [1-¹⁴C]glucose in slices of normal brain 30% but decreased conversion in tumor slices by 80%. Evidence supports the presence of an active hexose monophosphate pathway (HMP) in tumors of the nervous system regulated in part by available NADP⁺ levels. Inhibition by 6-AN was more effective in tumors than in normal adult brain.     

Formation of [13C]- and [14C]zearalenone by Fusarium graminearum DSM 4529

Summary To raise the yields for the production of ¹⁴C-labelled zearalenone in Fusarium cultures the influence of growth conditions and known effectors or precursors of toxin biosynthesis was studied. Benzoic acid and 2,4-dihydroxybenzoic acid used as precursors decreased toxin formation; in the presence of different pesticides such as 2,4-dichlorophenoxyacetic acid, however, toxin production increased up to 140%. The known pathway of zearalenone biosynthesis could be confirmed from the relative extents of ¹³C-incorporation into the zearalenone molecule by incubating Fusarium graminearum DSM 4529 with d-(+)-[1-¹³C]glucose as carbon source. When grown in the presence of d-[U-¹⁴C]glucose or [2-¹⁴C]malonic acid the strain produced [¹⁴C]zearalenone with specific activities of 0.07 and 0.09 Ci/mg, the ¹⁴C-incorporation rates being 0.34% and 0.48%, respectively.     

The chemical synthesis and biological oxidation of 7α-hydroxy[26-14C]cholesterol, 7-dehydro[26-14C]cholesterol and 26-hydroxy[26-14C]cholesterol

1. 26-Hydroxycholesterol was obtained by reducing the methyl ester of (±)-3β-hydroxycholest-5-en-26-oic acid, which was synthesized from 25-oxonorcholesterol. 2. Methods for preparing 7α-hydroxycholesterol and 7-dehydrocholesterol were modified to allow the micro-scale preparation of these [¹⁴C]sterols from [26-¹⁴C]-cholesterol. 3. 26-Hydroxycholesterol was oxidized more readily than 7α-hydroxycholesterol, 7-dehydrocholesterol or cholesterol by mitochondrial preparations from livers of mice, rats, guinea pigs, common toads (Bufo vulgaris) and Caiman crocodylus. 4. (±)-3β-Hydroxy[26-¹⁴C]cholest-5-en-26-oic acid was oxidized very rapidly to ¹⁴CO₂ by mouse and guinea-pig mitochondria without evident discrimination between the two optical isomers. 5. An enzyme system that oxidizes 26-hydroxycholesterol to 3β-hydroxycholest-5-en-26-oic acid was identified in the soluble extract of rat-liver mitochondria. This enzyme could use NADP in place of NAD but was not identical with liver alcohol dehydrogenase (EC 1.1.1.1). 6. [26-¹⁴C]Cholesteryl 3β-sulphate was not oxidized by fortified mouse-liver preparations that oxidized [26-¹⁴C]cholesterol to ¹⁴CO₂.     

METABOLIC COMPARTMENTATION IN THE BRAIN: METABOLISM OF A TRICARBOXYLIC ACID CYCLE INTERMEDIATE, [1,4-14C] SUCCINATE, AFTER INTRACEREBRAL ADMINISTRATION

Abstract— The metabolism of a tricarboxylic acid cycle (cycle) intermediate, [1.4-'¹⁴C]succinate, was studied in the brain at 2 20 min after intracerebral injection. The oxidation of [¹⁴C]succinate was rapid, as shown by the incorporation of ¹⁴C into cycle amino acids which accounted for about 30 per cent and 70 per cent of the tissue -“Cat 2 and 10 min respectively. During the whole experimental period the specific radioactivity of glutamine was about three times higher than that of glutamate. Thus exogenous [¹⁴C]succinate elicited signs of metabolic compartmentation similar to those seen after the administration of short chain fatty acids or amino acids. A computer programme, based on data obtained previously on the metabolic compartmentation of acetate and of glucose in the brain, was used to simulate the kinetics of labelling of cycle amino acids after an input of [1.4-¹⁴C]succinate. The correspondence of the simulated data with the experimental results was good in the first 10 min after injection, although the deviations were significant at later time points. Incorporation of ¹⁴C into GABA was very low (< 1 per cent of the amino acid -¹⁴C) after the injection of [1.4-¹⁴C]succinate. Further, labelled GABA formation was not detected in the decapitated rat brain labelled in vivo with [1.4-¹⁴C]succinate 2 min beforehand. Since the oxidation of [l,4-¹⁴C]succinate via the cycle yields unlabellcd GABA. whereas the reversal of the reactions in the GABA bypath may introduce ¹⁴C from succinate into the GABA pool, the results indicate that this reversal is negligible even under the most favourable conditions, i.e. post mortem when both the NADH/NAD⁺ ratios and [¹⁴C]succinate concentrations arc high. The observations are therefore consistent with the view that glutamate is the predominant and probably the only source of GABA carbon in the brain both in vivo and post mortem.     

Oxidation of Glucose,Ribose, Alanine,and Glutamate by Leishmania braziliensis panamensis1

The metabolism of [1-¹⁴C]- and [6-¹⁴C]glucose, [1-¹⁴]ribose, [1-¹⁴C]- and [U-¹⁴C]alanine, and [1-¹⁴C]- and [5-¹⁴C]glutamate by the promastigotes of Leishmania braziliensis panamensis was investigated in cells resuspended in Hanks' balanced salt solution supplemented with ribose, alanine, or glutamate. The ratio of ¹⁴CO₂ produced from [1-¹⁴C]glucose to that from [6-¹⁴C]glucose ranged from about two to six, indicating appreciable carbon flow through the pentose phosphate pathway. A functional pentose phosphate pathway was further demonstrated by the production of ¹⁴CO₂ from [1-¹⁴C]ribose although the rate of ribose oxidation was much lower than the rate of glucose oxidation. The rate of ¹⁴CO₂ production from [1-¹⁴C]glucose was almost linear with time of incubation, whereas that of [6-¹⁴C]glucose accelerated, consistent with an increasing rate of flux through the Embden-Meyerhof pathway during incubation. Increasing the assay temperature from 26°C to 34°C had no appreciable effect on the rates or time courses of oxidation of either [1-¹⁴C]- or [6-¹⁴C]glucose or of [1-¹⁴C]ribose. Both alanine and glutamate were oxidized by L. b. panamensis, and at rates comparable to or appreciably greater than the rate of oxidation of glucose. The ratios of ¹⁴CO₂ produced from [1-¹⁴C]- to [U-¹⁴C]alanine and from [1-¹⁴C]- to [5^-14C]glutamate indicated that these compounds were metabolized via a functioning tricarboxylic acid cycle and that most of the label that entered the tricarboxylic acid cycle was oxidized to carbon dioxide. Heating the cultures for 6 or 12 h at 34°C, which converts the promastigotes into an ellipsoidally shaped intermediate form, decreased the rates of oxidation of glucose, alanine, and glutamate. The oxidation of glutamate decreased by about 50% and 70% after a 6-h or 12-h heat treatment, respectively. Returning the heated cultures to 26°C initiated a reversion to the promastigote form and recovery of the rate of glucose oxidation, but glutamate oxidation did not return to control levels by 19 h at 26°C.     

Measurement of mouse brain glucose utilization in vivo using [U-14C]glucose

The rate of [2-¹⁴C]glucose uptake has been used as an indication of the status of energy consumption by the rat brain, but the cost of this radiolabel can be prohibitive and the surgical manipulation involved in published methods is extensive. A method for measuring glucose utilization in vivo in mouse brain with [U-¹⁴C]glucose is described in this article. Glucose consumption in whole mouse brain obtained with [U-¹⁴C]glucose or [2-¹⁴C]glucose was 0.650±0.022 and 0.716±0.36 nmol/mg/min, respectively. In all instances the rate obtained with the uniformly labeled isotope was somewhat lower than that found with [2-¹⁴C]glucose. The rate of glucose utilization measured with either isotope was significantly depressed in sodium pentobarbital anesthetized mice. The method described here is advantageous because [U-¹⁴C]glucose is substantially less expensive than [2-¹⁴C]glucose and surgical intervention is avoided.     

Compartmentation of citric acid cycle metabolism in brain: effect of aminooxyacetic acid, ouabain and Ca2+ on the labelling of glutamate, glutamine, aspartate and gaba by [1-14C]acetate, [U-14C]glutamate and [U-14C]asparate

—(1) The effects of aminooxyacetic acid, ouabain and Ca²⁺ on the compartmentation of amino acid metabolism have been studied in slices of brain incubated with sodium-[1-¹⁴C]acetate, l-[U-¹⁴C]glutamate and l-[U-¹⁴C]aspartate as tracer metabolites. (2) Aminooxyacetic acid (10^-3 m) inhibited the labelling of aspartate from [¹⁴C]acetate and [¹⁴C]glutamate, as well as the incorporation of label from [¹⁴C]aspartate into glutamate and glutamine. It also inhibited the labelling of GABA from all three radioactive precursors, as would be anticipated if there was inhibition of several transaminases as well as glutamate decarboxylase. The RSA of glutamine labelled from [1-¹⁴C]acetate was increased. This finding indicated that the glutamate pool which is utilized for glutamine formation is associated with glutamate dehydrogenase, and this enzyme appears to be related to the ‘synthetic tricarboxylic acid cycle’. AOAA exerted its major inhibitory effects on the citric acid‘energy cycle’with which transaminases are associated. (3) Ouabain (10^-5 m) inhibited the labelling of glutamine to a much greater extent than the labelling of glutamate from [1-¹⁴C]acetate. It also caused leakage of amino acids from the tissue into the medium. Its effect on the glutamate–glutamine system was interpreted to be a selective inhibition of the 'synthetic’citric acid cycle. (4) The omission of Ca²⁺ from the incubation medium was associated with formation of glutamine with RSA less than 1·0 when labelled from [U-¹⁴C]glutamate, [U-¹⁴C]aspartate and lower than normal when labelled from [1-¹⁴C]acetate.     

Enzymatic synthesis of beta-[U-14C]alanine and D-[1,2,3-14C]pantothenate of high specific radioactivity

β-[U-¹⁴C]Alanine can be synthesized in >95% yield from l-[U-¹⁴C]aspartic acid using the aspartate 1-decarboxylase of Escherichia coli and converted to d-[1,2,3-¹⁴C]pantothenate in a 10–20% yield using the pantothenate synthetase of E. coli. Sufficiently pure preparations of both enzymes are readily obtained.     

Metabolism of [2-3H]- and [6-3H]-nicotinic acid in intact Nicotiana tabacum plants

Earlier observations of Dawson on the relative incorporation of [2-³H]- and [6-³H]-nicotinic acid into nicotine have been confirmed in intact Nicotiana tabacum plants. All the tritium in the nicotine derived from [2-³H]-nicotinic acid was located at C-2 of the pyridine ring. However the radioactive nicotine derived from [6-³H]-nicotinic acid was not labelled specifically at C-6 with tritium. By carrying out feeding experiments with [6-¹⁴-C, 2-³H]- and [6-¹⁴C, ³H]-nicotinic acids, it was established that there was very little loss of tritium from C-2 and C-6 of nicotinic acid during 5 days of metabolism in the tobacco plant.     

Preparation of [1-13C]D-Glucose 6-Phosphate from [13C]Methanol and D-Ribose 5-Phosphate with Methylotrophic Enzymes

[¹³C]Formaldehyde was selectively incorporated into the C-1 position of D-fructose 6-phosphate by condensation with D-ribulose 5-phosphate catalyzed by a partially purified enzyme system for formaldehyde fixation in Methylomonas aminofaciens 77a. Much of the [1-¹³C]D-fructose 6-phosphate produced in this reaction was converted to [1-¹³C]D-glucose 6-phosphate by the addition of glucose-6-phosphate isomerase. A fed-batch reaction with periodic additions of the substrates afforded 56.2 g/liter D-glucose 6-phosphate and 26.8g/liter D-fructose 6-phosphate. When [¹³C]methanol was used as the C₁-donor, the yield of [1-¹³C]D-glucose 6-phosphate was high when alcohol oxidase was added. The optimum conditions for sugar phosphate production in the fed-batch reaction gave 45.6g/liter [1-¹³C]D-glucose 6-phosphate and 16.4g/liter [1-¹³C]D-fructose 6-phosphate in 165min. The molar yield of the total sugar phosphates to methanol added was 95%. The addition of H₂O₂ and catalase to the reaction system supplied molecular oxygen for methanol oxidation to formaldehyde by alcohol oxidase.     

The Resolution by HPLC of RS-[2-14C]Me 1', 4'-cis-Diol of Abscisic acid and the Metabolism of (-)-R- and (+)-S-Abscisic Acid

The R- and S-enantiomers of racemic [2-¹⁴C]Me 1', 4'-cis-diolof abscisic acid have been separated by high performance liquidchromatography on an optically-active Pirkle column. R-[2-¹⁴C]-and S-[2-¹⁴C]abscisic acids, formed from the Me 1', 4'-cis-diolby oxidation and alkyline hydrolysis were fed to tomato shootsand the extracts analysed by reversed phase high performanceliquid chromatography. R-[2-¹⁴C]abscisic acid formed mainlythe abscisic acid glucose ester (ABAGE), abscisic acid l'-glucoside(ABAGS) and an uncharacterized conjugate. Dihydrophaseic acid4'-B-D-glucoside, the major metabolite of RS-abscisic acid intomato shoots, was found to be derived virtually exclusivelyfrom the natural, S-abscisic acid. Phaseic acid and conjugatesof abscisic acid were also found as products of the naturallyoccurring enantiomer. The resolution method was used to measurethe relative proportions of R and S enantiomers in the freeacid liberated from conjugates formed from RS-[2-¹⁴C]ABA fedto shoots. The ratios show an excess of the R-enantiomer: 5.8:1, ABAGE; 29.4: 1, ABAGE; 8.3: 1 for an uncharacterized conjugateand 6.1: 1 for the residual free [2-¹⁴C]ABA. Key words: ABA, HPLC, Tomato