Hydroxyl Radical-Mediated Oxidation of Serotonin: Potential Insights into the Neurotoxicity of Methamphetamine

Abstract: When incubated with a hydroxyl radical (HO^?)-generating system (ascorbic acid/Fe²⁺-EDTA/O₂/H₂O₂), 5-hydroxytryptamine (5-HT; serotonin) is rapidly oxidized initially to a mixture of 2,5-, 4,5-, and 5,6-dihydroxytryptamine (DHT). The major reaction product is 2,5-DHT, which at physiological pH exists as its keto tautomer, 5-hydroxy-3-ethylamino-2-oxindole (5-HEO). Rapid autoxidation of 4,5-DHT gives tryptamine-4,5-dione (T-4,5-D), which reacts with the C(3)-centered carbanion of 5-HEO to give 3,3′-bis(2-aminoethyl)-5-hydroxy-[3,7′-bi-1H-indole]-2,4′,5′-3H-trione (7). The latter slowly cyclizes to 3′-(2-aminoethyl)-1′,6′,7′,8′-tetrahydro-5-hydroxyspiro[3H-indole-3,9′-[9H]pyrrolo[2,3-f]quinoline]-2,4′,5′(1H)- trione (9). A minor amount of T-4,5-D dimerizes to give 7,7′-bi-(5-hydroxytryptamine-4-one) (7,7′-D). In the presence of GSH, the reaction of T-4,5-D with 5-HEO is diverted and, in the presence of sufficient concentrations of this tripeptide, completely blocked. This is because GSH preferentially reacts with T-4,5-D to give 7-S-glutathionyltryptamine-4,5-dione (11). The results of this investigation suggest that 5,6-DHT, 5-HEO, 7, and 9 are products unique to the HO^?-mediated oxidation of 5-HT. Thus, the observation of other investigators that 5,6-DHT is formed in the brains of rats following a large dose of methamphetamine (MA) suggests that this drug might evoke HO^? formation. However, the present in vitro study indicates that 5,6-DHT is a rather minor, unstable product of the HO^?-mediated oxidation of 5-HT and suggests that detection of 5-HEO, 7/9, and 11 in rat brain following MA administration could provide additional support for HO^? formation. Furthermore, one or more of the intermediates and major products of oxidation of 5-HT by HO^? might, in addition to 5,6-DHT, contribute to the MA-induced degeneration of serotonergic neurons.     

A New Lysine-containing Lipid Isolated from Agrobacterium tumefaciens

Fermentative production of 3aα-H-4α-(3′-propionic acid)-5α-hydroxy-7aβ-methylhexa-hydro-1-indanone-δ-lactone (HIL) from soybean sterol was studied in order to use it as an intermediate for chemical synthesis of 19-norsteroids. A mutant of Nocardia corallina converted 20 g/liter of soybean sterol into 2.8 g/liter of HIL with a 25% yield on a molar basis. The dominant factors improving the productivity were the use of an amino acid mixture as a nitrogen source and the preparation of the sterol suspension by sonication or with surface-active agents.     

Paraoxonase 1 in endothelial cells impairs vasodilation induced by arachidonic acid lactone metabolite

IntroductionParaoxonase 1 (PON1) is a high density lipoprotein (HDL)-associated lactonase, which is known for its antiatherogenic properties. Previous studies in PON1 knockout (PON1KO) mice revealed that PON1KO mice have low blood pressure, which is inversely correlated with the renal levels of the cytochrome P450 -derived arachidonic acid metabolite 5,6-epoxyeicosatrienoic acid (5,6-EET). Our previous studies revealed that 5,6-EET is unstable, transforming to the δ-lactone isomer 5,6-δ-DHTL, an endothelium-derived hyperpolarizing factor (EDHF) that mediates vasodilation, and it is a potential substrate for PON1.AimTo elucidate the role of PON1 in the modulation of vascular resistance via the regulation of the lactone-containing metabolite 5,6-δ-DHTL.ResultsIn mouse resistance arteries, PON1 was found to be present and active in the endothelial layer. Vascular reactivity experiments revealed that 5,6-δ-DHTL dose-dependently dilates PON1KO mouse mesenteric arteries significantly more than wild type (w.t.) resistance arteries. Pre-incubation with HDL or rePON1 reduced 5,6-δ-DHTL-dependent vasodilation. FACS analyses and confocal microscopy experiments revealed that fluorescence-tagged rePON1 penetrates into human endothelial cells' (ECs') in both dose- and time- dependent manner, accumulate in the perinuclear compartment, and retains its lactonase activity in the cells. The presence of rePON1, but not the presence of PON1 loss-of-lactonase-activity mutant, reduced the Ca²⁺ influx in the ECs mediated by 5,6-δ-DHTL.ConclusionPON1 lactonase activity in the endothelium affects vascular dilation by regulating Ca²⁺ influx mediated by the lactone-containing EDHF 5,6-δ-DHTL.     

Degradative Pathway of 2-Deceno-δ-lactone by the Lactone-producing Fungus,Fusarium solani

The degradative pathway of 5-alkanolides (alkano-δ-lactones) and 2-deceno-δ-lactone (massoialactone) by Fusarium solani PM-1, a massoialactone-producing fungus, was investigated. (±)-Alkano-δ-lactones were shown to be degraded first to a one-carbon-atom-less methyl ketone, 4-hydroxy-2-alkanones, after hydroxylation. The 4-hydroxy-2-alkanones were then converted to 2,4-alkanediones or to 2,4-alkanediols, and are suggested to be successively degraded by modified β-oxidation. (R)-Massoialactone, the main compound in the volatiles produced by the strain, was first saturated to (R)-decano-δ-lactone, and then this saturated lactone was degraded in the same way. These observations lead to a conceptional cycle of acetate moieties throughout the production and degradation of the secondary metabolites.     

Vdelta1+ T cells are crucial for repertoire formation of gammadelta T cells in the lung

The pulmonary resident T lymphocytes (RPLs) expressing a nearly invariant T cell receptor γδ heterodimer (γδTCR) migrate from fetal thymus to the lung epithlium, followed by RPL subsets expressing diverse sets of γδTCRs after birth. However, it remains unclear whether the fetal type Vγ6/Vδ1⁺ RPLs are essential for γδ T cell repertoire formation in the lung epithelium. In this study, we found a marked decrease in the number of γδRPLs at 4 weeks of age in Vδ1^−/− mice and they predominantly expressed Vγ6 and Vδ4 genes. The skewed diversity towards the Vδ4-(Dδ1)-Dδ2-Jδ2 junctional region was observed only in γδ RPLs from 4-week-old Vδ1^−/− mice, compared with those from 8-week-old Vδ1^−/− mice and the both ages of wild-type mice. These results suggest that the invariant Vδ1⁺ T cells are crucial not only for optimal γδ T cell expansion but also for affecting the migration or microenvironment for other γδ T cells in the lung epithelium.     

Preparation of some bromodeoxyaldonic acids

Reaction of L-ascorbic acid with hydrogen bromide in acetic acid gave 6-bromo-6-deoxy-L-ascorbic acid, which was converted into 5,6-dideoxy-D-glycero-hex-2,3-enono-1,4-lactone. Hexonic acids or their lactones also gave bromo compounds on treatment with HBrAcOH. From D-galactono-1,4-lactone a 6-bromo derivative was obtained. Calcium D-gluconate yielded 2,6-dibromo-2,6-dideoxy-D-mannono-1,4-lactone, whereas D-mannono-1,4-lactone gave 2,6-dibromo-2,6-dideoxy-D-glucono-1,4-lactone.     

IN VITRO STUDIES ON THE INTERACTION OF BRAIN MONOAMINE OXIDASE WITH 5,6- AND 5,7-DIHYDROXYTRYPTAMINE12

[¹⁴C]5,6-Dihydroxytryptamine ([¹⁴C] 5,6-DHT) and [¹⁴C]5,7-dihydroxytryptamine ([¹⁴C]5,7-DHT) were deaminated to toluene-isoamylalcohol extractable products when incubated with homogenates of rat hypothalamus or pons-medulla oblongata. [¹⁴C]5,6-Dihydroxyindole acetic acid ([¹⁴C]5.6-DHIAA) and [¹⁴C]5,7-dihydroxyindole acetic acid ([¹⁴C]5,7-DHIAA) were detected as MAO metabolites by TLC besides non-identified components. The conversion of [¹⁴C]5,6-DHT and [¹⁴C]5,7-DHT obeyed, at least initially, Michaelis-Menten kinetics (K_m 5,7-DHT: 0.5 × 10^?3M; K_m 5,6-DHT: 1.25 × 10^?3M). Inhibition of the reaction by the MAO A inhibitor, clorgyline, resulted in a typical double sigmoidal inhibition curve indicating that both amines are metabolized by both types of MAO (A and B). In deprenyl inhibition studies, however, 5,7- and 5,6-DHT seemed to be preferred substrates of MAO A. Incubation of rat brain homogenates with [¹⁴C]5,6-DHT and [¹⁴C]5,7-DHT or with the MAO metabolites [¹⁴C]5,6-DHIAA and [¹⁴C]5,7-DHIAA caused a time-dependent break-down of the dihydroxylated indole compounds with subsequent binding of radioactivity to perchloric acid insoluble tissue components. 5,6-DHT inactivated MAO in rat brain homogenates parallel to its decomposition and extensive protein binding. The inactivation of MAO by 5,6-DHT and the extensive binding of radioactivity to protein were antagonized by dithiothreitol (DTT), glutathione (GSH) and L-ascorbic acid. Reduction of [O₂] in the incubation medium slightly attenuated the inactivation of MAO by 5,6-DHT. Catalase or superoxide dismutase failed to prevent MAO from being inactivated by 5,6-DHT. The results suggest that oxidation products of 5,6-DHT, e.g. its corresponding o-quinone, are involved in the inactivation of MAO in vitro and mainly responsible for the binding of radioactivity to brain proteins in vitro. Similar mechanisms may also be operative in the in vivo neurotoxicity of 5,6-DHT. The lack of inactivation of MAO by 5,7-DHT in vitro correlated with a low degree of radioactivity binding (from [¹⁴C]5,7-DHT) to homogenate protein pellets; the binding to proteins was barely influenced by GSH, cysteine, DTT and l -ascorbic acid. These latter findings do not provide a plausible explanation for the mechanism(s) involved in the well known in vivo neurotoxicity of 5,7-DHT.     

l-Arginine Effects on Na+ Transport in M-1 Mouse Cortical Collecting Duct Cells—A Cationic Amino Acid Absorbing Epithelium

The effect of l-arginine on transepithelial ion transport was examined in cultured M-1 mouse renal cortical collecting duct (CCD) cells using continuous short circuit current (I _SC ) measurements in HCO₃ ⁻/CO₂ buffered solution. Steady state I _SC averaged 73.8 ± 3.2 μA/cm² (n= 126) and was reduced by 94 ± 0.6% (n= 16) by the apical addition of 100 μm amiloride. This confirms that the predominant electrogenic ion transport in M-1 cells is Na⁺ absorption via the epithelial sodium channel (ENaC). Experiments using the cationic amino acid l-lysine (radiolabeled) as a stable arginine analogue show that the combined activity of an apical system y⁺ and a basal amino acid transport system y⁺L are responsible for most cationic amino acid transport across M-1 cells. Together they generate net absorptive cationic amino acid flux. Application of l-arginine (10 mm) either apically or basolaterally induced a transient peak increase in I _SC averaging 36.6 ± 5.4 μA/cm² (n= 19) and 32.0 ± 7.2 μA/cm² (n= 8), respectively. The response was preserved in the absence of bath Cl⁻ (n= 4), but was abolished either in the absence of apical Na⁺ (n= 4) or by apical addition of 100 μm amiloride (n= 6). l-lysine, which cannot serve as a precursor of NO, caused a response similar to that of l-arginine (n= 4); neither L-NMMA (100 μm; n= 3) nor L-NAME (1 mm; n= 4) (both NO-synthase inhibitors) affected the I _SC response to l-arginine. The effects of arginine or lysine were replicated by alkalinization that mimicked the transient alkalinization of the bath solution upon addition of these amino acids. We conclude that in M-1 cells l-arginine stimulates Na⁺ absorption via a pH-dependent, but NO-independent mechanism. The observed net cationic amino acid absorption will counteract passive cationic amino acid leak into the CCD in the presence of electrogenic Na⁺ transport, consistent with reports of stimulated expression of Na⁺ and cationic amino acid transporters by aldosterone. Received: 11 September 2000/Revised: 6 December 2000     

Improved preparation and synthetic uses of 3-deoxy-d-arabino-hexonolactone: an efficient synthesis of Leptosphaerin

Acetylation of d-glucono-1,5-lactone and subsequent treatment with triethylamine gave 2,4,6-tri-O-acetyl-d-erythro-hex-2-enono-1,5-lactone. Hydrogenation of the latter in the presence of palladium on carbon yielded 2,4,6-tri-O-acetyl-3-deoxy-d-arabino-hexono-1,5-lactone (5) in almost quantitative yield calculated from gluconolactone. Catalytic hydrogenation of 5 with platinum on carbon in the presence of triethylamine gave 2,4,6-tri-O-acetyl-3-deoxy-d-arabino-hexopyranose in quantitative yield. Deacetylation of 5 gave 3-deoxy-d-arabino-hexono-1,4-lactone, which was converted into 3-deoxy-5,6-O-isopropylidene-2-O-methanesulfonyl-d-arabino-hexono-1,4-lactone (10). The latter was converted into 2-acetamido-2,3-dideoxy-d-erythro-hex-2-enono-1,4-lactone (Leptosphaerin). When 10 was boiled in water in the presence of acid, it gave a high yield of 2,5-anhydro-3-deoxy-d-ribo-hexonic acid.     

The synthesis of chlorodeoxyhexofuranoid derivatives

The reaction of 1,2-O-isopropylidene-α- d-glucofuranose with sulfuryl chloride at 0° and at 50° afforded 6-chloro-6-deoxy-1,2-O-isopropylidene-α- d-glucofuranose 3,5-bis(chlorosulfate) ( 3) and 5,6-dichloro-5,6-dideoxy-1,2-O-isopropylidene-β- l-idofuranose 3-chlorosulfate ( 7, not characterised), respectively. Dechlorosulfation of 3 afforded the hydroxy derivative, whereas treatment of 3 with pyridine gave the 3,5-(cyclic sulfate). Dechlorosulfation of 7 afforded 5,6-dichloro-5,6-dideoxy-1,2-O-isopropylidene-β- l-idofuranose which, on acid hydrolysis, was converted into 3,6-anhydro-5-chloro-5-deoxy- l-idofuranose. 5-Chloro-5-deoxy-α- l-idofuranosidurono-6,3-lactone and 5-chloro-5-deoxy-β- l-idofuranurono-6,3-lactone derivatives were also prepared.     

Determination of isonicotinic acid in the presence of isoniazid and acetylisoniazid Studies on isonicotinic acid formation from isoniazid in isolated rat hepatocytes

In comparison with the hepatocytes obtained from intact rats and rats pretreated with phenobarbital or 3-methylchoranthrene, the amount of isonicotinic acid (INA) formed from isoniazid (INH) increased substantially after incubation at 37°C using the pretreated hepatocytes. This suggests an oxidative pathway for INA formation from INH, apart from hydrolysis. In order to explore the exact mechanism of INA formation in the hepatocytes, an HPLC assay for INA in the presence of INH and acetylisoniazid was developed. In this assay, INA was extracted after the preparation of an ion pair with tetra-n-butylammonium hydroxide, and analysed using an ODS column and a mobile phase consisting of 0.067 M potassium dihydrogenphosphate solution-methanol (96:4 v/v). The method is simple, accurate and especially suitable for INA determination after incubation of INH in isolated rat hepatocytes.     

The regulatory network that controls the differentiation of T lymphocytes

There is a vast amount of molecular information regarding the differentiation of T lymphocytes, in particular regarding in vitro experimental treatments that modify their differentiation process. This publicly available information was used to infer the regulatory network that controls the differentiation of T lymphocytes into CD4⁺ and CD8⁺ cells. Hereby we present a network that consists of 50 nodes and 97 regulatory interactions, representing the main signaling circuits established among molecules and molecular complexes regulating the differentiation of T cells. The network was converted into a continuous dynamical system in the form of a set of coupled ordinary differential equations, and its dynamical behavior was studied. With the aid of numerical methods, nine fixed point attractors were found for the dynamical system. These attractors correspond to the activation patterns observed experimentally for the following cell types: CD4⁻CD8⁻, CD4⁺CD8⁺, CD4⁺ naive, Th1, Th2, Th17, Treg, CD8⁺ naive, and CTL. Furthermore, the model is able to describe the differentiation process from the precursor CD4⁻CD8⁻ to any of the effector types due to a specific series of extracellular signals.     

Effect of scorpion venom, tityustoxin, on the release of acetylcholine from incubated slices of rat brain

Abstract— Purified tityustoxin (TsTX) from the venom of the scorpion, Tityus serrulatus, when incubated in vitro with slices of rat cerebral cortex, increased the amount of free ace-tylcholine (ACh) in the incubation medium and, simultaneously, reduced the amount of bound ACh in the slices. The effect was optimal at pH 7.4 and was dependent upon time of incubation, an energy source and the concentration of toxin. Tityustoxin increased the synthesis of ACh, but this effect seemed to be related to an increase in the release of ACh. The effect of the TsTX was independent of the concentration of K⁺ ion but was dependent on the presence of Na⁺ and Ca²⁺ in the incubation medium. Hexamethonium and hemicholinium reduced the effect of tityustoxin, but cocaine had no effect on the release of ACh stimulated by the TsTX. Tetrodotoxin blocked completely the stimulation caused by the tityustoxin. We suggest that probably both tityustoxin and tetrodotoxin exert different and antagonistic effects competing in the Na⁺ channels.     

Reverse Reaction of Malic Enzyme for HCO3 − Fixation into Pyruvic Acid to Synthesize L-Malic Acid with Enzymatic Coenzyme Regeneration

Malic enzyme [L-malate: NAD(P)⁺ oxidoreductase (EC 1.1.1.39)] catalyzes the oxidative decarboxylation of L-malic acid to produce pyruvic acid using the oxidized form of NAD(P) (NAD(P)⁺). We used a reverse reaction of the malic enzyme of Pseudomonas diminuta IFO 13182 for HCO₃ ^? fixation into pyruvic acid to produce L-malic acid with coenzyme (NADH) generation. Glucose-6-phosphate dehydrogenase (EC1.1.1.49) of Leuconostoc mesenteroides was suitable for coenzyme regeneration. Optimum conditions for the carboxylation of pyruvic acid were examined, including pyruvic acid, NAD⁺, and both malic enzyme and glucose-6-phosphate dehydrogenase concentrations. Under optimal conditions, the ratio of HCO₃ ^? and pyruvic acid to malic acid was about 38% after 24 h of incubation at 30 °C, and the concentration of the accumulated L-malic acid in the reaction mixture was 38 mM. The malic enzyme reverse reaction was also carried out by the conjugated redox enzyme reaction with water-soluble polymer-bound NAD⁺.     

Inhibitor and substrate activities of sesquiterpene olefins toward (+)-δ-cadinene-8-hydroxylase, a cytochrome P450 monooxygenase (CYP706B1)

Several lines of evidence indicate that (+)-δ-cadinene-8-hydroxylase (CYP706B1) plays an important role in biosynthesis of gossypol in Gossypium arboreum L. ( [Luo et al., 2001] and [Wang et al., 2003]). The catalytically active enzyme has been expressed in yeast microsomes. Some microsomal preparations conjugated the hydroxylated (+)-δ-cadinene to a moiety that has not yet been identified. However, when microsomes were treated with n-octyl-β-d-glucoside (OG), a non-ionic detergent, (+)-δ-cadinene was reproducibly converted to the free alcohol, 8-hydroxy-(+)-δ-cadinene. OG had little effect on K_m and slightly stimulated apparent V_max. Enzymic activity was more than 10-fold more sensitive to inhibition by the N-substituted imidazole clotrimazole than to miconazole. Sesquiterpene olefins (−)-δ-cadinene, (−)-α-cubebene, (−)-α-muurolene, α-humulene, and a mixture of (−)- and (+)-α-copaene were inhibitory to hydroxylation of (+)-δ-cadinene. In addition, (−)-α-cubebene, (−)-α-muurolene, α-humulene, and, to a smaller extent, (−)-δ-cadinene served as alternative substrates for (+)-δ-cadinene-8-hydroxylase and were converted to mono-hydroxylated products. Of the five olefins tested, α-humulene and α-copaene are found in lysigenous glands of cotton (Elzen et al., 1985), which are also the site of gossypol accumulation ( [Bell et al., 1978] and [Mace et al., 1976]) and the probable site of its biosynthesis.     

Ouabain-insensitive Na-ATPase activity of Malpighian tubules from Rhodnius prolixus

In the present paper, we show the existence of a furosemide-sensitive Na⁺-stimulated, Mg²⁺-dependent ATPase activity in cell lysates of Malpighian tubular cells from Rhodnius prolixus, which could be the biochemical expression of the Na⁺-pump. The main characteristics of this activity are: (1) K_0.5 for Na⁺=1.49±0.18 mM, (2) V_max=2.8±0.1 nmol inorganic orthophosphate (Pi)·mg prot⁻¹·min⁻¹, (3) it is fully abolished by 2 mM furosemide, (4) it is insensitive to ouabain concentrations up to 10⁻² M, (5) it is sensitive to the presence of vanadate in the incubation medium indicating it to be a P-type ATPase, and (6) it is stimulated by nanomolar concentrations of Ca²⁺ in the incubation medium.     

High-performance liquid chromatography—thermospray mass spectrometry of epoxy polyunsaturated fatty acids and epoxyhydroxy polyunsaturated fatty acids from an incubation mixture of rat tissue homogenate

A method for the analysis of epoxy polyunsaturated fatty acids (EpPUFAs) and epoxyhydroxy polyunsaturated fatty acids (EpHPUFAs) in rat tissue homogenate, with homo-γ-linolenic acid (20:3, n − 6), arachidonic acid (20:4, n − 6), eicosapentaenoic acid (20:5, n − 3) or docosahexaenoic acid (22:6, n − 3) as a substrate, has been developed. Extraction with dichloromethane at pH 4–5 and concentration in the presence of pyridine were performed. Spectral analysis of chromatograms obtained with high-performance liquid chromatography—thermospray mass spectrometry showed the presence of EpPUFAs, EpHPUFAs and dihydroxy metabolites (DiHPUFAs) of EpPUFAs corresponding to each precursor fatty acid. On a selected-ion monitoring chromatogram, many EpPUFAs, EpHPUFAs and DiHPUFAs in an extract from an incubation mixture of each precursor fatty acid in aged rat tissue homogenate were detected simultaneously within 70 min. EpPUFAs and DiHPUFAs derived from 20:3 (n − 6) or 20:5 (n − 3) were detected in significant amounts. From these results, a highly active cytochrome P450 system or non-enzymic oxidative reactions in aged rat tissue homogenate were suggested.     

Somatic embryogenesis, scanning electron microscopy, histology and biochemical analysis at different developing stages of embryogenesis in six date palm (Phoenix dactylifera L.) cultivars

An efficient somatic embryogenesis system has been established in six date palm (Phoenix dactylifera L.) cultivars (Barhee, Zardai, Khalasah, Muzati, Shishi and Zart). Somatic embryogenesis (SE) was growth regulators and cultivars dependent. Friable embryogenic callus was induced from excised shoot tips on MS medium supplemented with various auxins particularly 2,4-dichlorophenoxyacetic acid (2,4-D, 1.5 mg 1^−l). Suspension culture increased embryogenesis potentiality. Only a-naphthaleneacetic acid (NAA, 0.5 mg 1⁻¹) produced somatic embryos in culture. Somatic embryos germinated and converted into plantlets in N⁶-benzyladenine (BAP, 0.75 mg 1^−l) added medium following a treatment with thidiazuron (TDZ, 1.0 mg 1^−l) for maturation. Scanning electron microscopy showed early stages of somatic embryo particularly, globular types, and was in masses. Different developing stages of embryogenesis (heart, torpedo and cotyledonary) were observed under histological preparation of embryogenic callus. Biochemical screening at various stages of somatic embryogenesis (embryogenic callus, somatic embryos, matured, germinated embryos and converted plantlets) of date palm cultivars has been conducted and discussed in detail. The result discussed in this paper indicates that somatic embryos were produced in numbers and converted plantlets can be used as a good source of alternative propagation. Genetic modification to the embryo precursor cell may improve the fruit quality and yield further.     

Nitrilotris(methylenephosphonates) in aqueous solution and solid state - dilatometric, potentiometric and NMR investigations

Dissociation and alkali complex formation equilibria of nitrilotris(methylenephosphonic acid) (NTMP, H₆L) have been studied by dilatometric, potentiometric and ³¹P NMR-controlled titrations. Dilatometry indicated the formation of alkali complexes ML (M=Li, Na, K, Rb, Cs) at high pH with a stability decreasing from Li to Cs. An efficient combination of potentiometric and NMR methods confirmed two types of alkali metal complexes MHL and ML. Stability constants for the equilibria following M⁺ + HL⁵⁻ ? MHL⁴⁻ and M⁺ + L⁶⁻ ? ML⁵⁻, respectively, were determined: logK_NaHL=1.08(0.07), logK_KHL=0.86(0.08), logK_NaL=2.24(0.03). Systematic errors are introduced by using alkali metal hydroxides as titrants for routine potentiometric determinations of dissociation constants pK_a5^app and pK_a6^app. Correction formulae were derived to convert actual dissociation constants pK_a into apparent dissociation constants pK_a^app (or vice versa). The actual dissociation constants were found: pK_a5(H₂L⁴⁻ ? H⁺ + HL⁵⁻)=7.47(0.03) and pK_a6(HL⁵⁻ ? H⁺ + L⁶⁻)=14.1(0.1). The anisotropy of ³¹P chemical shifts of salts M_nH_6 − nL (M=Li, Na, n=0-5) is more sensitive towards titration (n) than isotropic solution state chemical shifts.     

Variation in bulk tissue, fatty acid and monosaccharide δ13C values between autotrophic and heterotrophic plant organs

The flowers of 23 species of grass and herb plants were collected from a mesotrophic grassland to assess natural variability in bulk, monosaccharide and fatty acid δ¹³C values from one plant community and were compared with previous analyses of leaves from the same species. The total mean bulk δ¹³C value of flower tissues was −28.1‰, and there was no significant difference between the mean δ¹³C_flower values for grass (−27.8‰) and herb (−28.2‰) species. On average bulk δ¹³C_flower values were 1.1‰ higher than bulk δ¹³C_leaf values, however, the δ¹³C_flower and δ¹³C_leaf values of grasses did not differ between organs suggesting that carbon isotope discrimination is different in grass and herb species. The abundance of different monosaccharides abundance varied between plant types, i.e. xylose concentrations in the grass flowers were as high as 40%, compared with up to 15% in the herb species, but the general relationship δ¹³C_arabinose > δ¹³C_xylose > δ¹³C_glucose > δ¹³C_galactose which had been observed in leaves was similar in flowers (total mean δ¹³C values = −25.9‰, −27.2‰, −28.8‰ and −28.1‰, respectively). However, the average 5.4‰ depletion in the δ¹³C values of the C_16:0, C_18:2 and C_18:3 fatty acids in flowers compared to bulk tissue was significantly greater than observed for leaves. The trend C_16:0 < C_18:2 < C_18:3 previously observed in leaves was also observed in grass flowers (δ¹³C_C16:0 = −33.8‰; δ¹³C_C18:2 = −33.1‰; δ¹³C_C18:3 = −34.2‰) but not herb flowers (δ¹³C_C16:0 = −34.1‰; δ¹³C_C18:2 = −32.4‰; δ¹³C_C18:3 = −34.5‰). We conclude: (i) that the biological processes influencing carbon isotope discrimination in grass flowers are different from herbs flowers; and, (ii) that a range of post-photosynthetic fractionation effects caused the observed differences between flower and leaf δ¹³C values, especially the significant ¹³C-depletion in flower fatty acid δ¹³C values.