The chemotaxonomic significance of root anthraquinones and pre-anthraquinones in the genus Lomatophyllum (asphodelaceae)

The roots of seven species of Lomatophyllum were analysed by TLC and HPLC for the presence of nine different anthraquinones and pre-anthraquinones which are all known to be characteristic constituents of the subterranean metabolism of Aloe. Chrysophanol and asphodelin were detected in all the samples analysed. In addition, the 1-methyl-8-hydroxyanthraquinones aloesaponarin I, aloesaponarin II and laccaic acid -methyl ester, together with the corersponding pre-anthraquinones were detected in all seven species. The results support the inclusion of Lomatophyllum in Aloe.     

Metabolic Pathways Leading to Mercury Methylation in Desulfovibrio desulfuricans LS

The synthesis of methylmercury by Desulfovibrio desulfuricans LS was investigated on the basis of ¹⁴C incorporation from precursors and the measurement of relevant enzyme activities in cell extracts. The previously observed incorporation of C-3 from serine into methylmercury was confirmed by measurement of relatively high activities of serine hydroxymethyltransferase and other enzymes of this pathway. High rates of label incorporation into methylmercury from H¹⁴COO^- and H¹⁴CO₃^- prompted the assay of enzymes of the acetyl coenzyme A (CoA) synthase pathway. These enzymes were found to be present but at activity levels much lower than those reported for acetogens. Propyl iodide inhibited methylmercury and acetyl-CoA syntheses to similar extents, and methylmercury synthesis was found to compete with acetyl-CoA synthesis for methyl groups. On the basis of these findings, we propose that in methylmercury synthesis by D. desulfuricans LS the methyl group is transferred from CH₃-tetrahydrofolate via methylcobalamin. The methyl group may originate from C-3 of serine or from formate via the acetyl-CoA synthase pathway. These pathways are not unique to D. desulfuricans LS, and thus the ability of this bacterium to methylate mercury is most likely associated with the substrate specificity of its enzymes.     

Glycollate oxidase inhibition and its effect on photosynthesis and pigment formation in Hordeum vulgare

Investigations of the effect of 2-hydroxy-3-butynoic acid and its methyl ester on photosynthesis in Hordeum vulgare are reported. In the presence of either of these compounds the assimilation of ¹⁴CO₂ was greatly decreased. The labelling patterns showed massive accumulation of glycollate and greatly reduced incorporation into sucrose and other products of photosynthesis. The inhibition was specific for the S(+) enantiomers. In greening barely the S(+) enantiomers inhibited formation of chloroplast pigments, and this was paralleled by inhibition of glycollate oxidase. This was the only enzyme of the glycollate pathway whose activity was significantly decreased after inhibitor treatments. Of a range of metabolises tested, only supplementations with glycine and glutamate or glycine, serine and succinate fully restored greening.     

Biosynthetic studies on aromatic carotenoids. Biosynthesis of chlorobactene

1. The incorporation of [2-¹⁴C]mevalonic acid by Chloropseudomonas ethylica strain 2K into chlorobactene was studied. 2. Oxidative degradation of chlorobactene of constant specific radioactivity produced labelled benzenecarboxylic acids and indicated that the benzene ring originates from mevalonic acid. 3. Decarboxylation studies demonstrated a stereospecific methyl migration in the formation of the 1,2,5-trimethylphenyl group of chlorobactene. The migrating methyl group was derived from the C-3′ position of mevalonic acid.     

Aspartate Carbamyltransferase : Site of End-Product Inhibition of the Orotate Pathway in Intact Cells of Cucurbita pepo

Lovatt et al. (1979 Plant Physiol 64: 562-569) have previously demonstrated that end-product inhibition functions as a mechanism regulating the activity of the orotic acid pathway in intact cells of roots excised from 2-day-old squash plants (Cucurbita pepo L. cv Early Prolific Straightneck). Uridine (0.5 millimolar final concentration) or one of its metabolites inhibited the incorporation of NaH¹⁴CO₃, but not [¹⁴C]carbamylaspartate or [¹⁴C]orotic acid, into uridine nucleotides (ΣUMP). Thus, regulation of de novo pyrimidine biosynthesis was demonstrated to occur at one or both of the first two reactions of the orotic acid pathway, those catalyzed by carbamylphosphate synthetase (CPSase) and aspartate carbamyltransferase (ACTase). The results of the present study provide evidence that ACTase alone is the site of feedback control by added uridine or one of its metabolites. Evidence demonstrating regulation of the orotic acid pathway by end-product inhibition at ACTase, but not at CPSase, includes the following observations: (a) addition of uridine (0.5 millimolar final concentration) inhibited the incorporation of NaH¹⁴CO₃ into ΣUMP by 80% but did not inhibit the incorporation of NaH¹⁴CO₃ into arginine; (b) inhibition of the orotate pathway by added uridine was not reversed by supplying exogenous ornithine (5 millimolar final concentration), while the incorporation of NaH¹⁴CO₃ into arginine was stimulated more than 15-fold when both uridine and ornithine were added; (c) incorporation of NaH¹⁴CO₃ into arginine increased, with or without added ornithine when the de novo pyrimidine pathway was inhibited by added uridine; and (d) in assays employing cell-free extracts prepared from 2-day-old squash roots, the activity of ACTase, but not CPSase, was inhibited by added pyrimidine nucleotides.     

Naphthoquinones from the roots of Aloe secundiflora

Two new naphthoquinones, 5-hydroxy-3,6-dimethoxy-2-methylnaphthalene-1,4-dione and 5,8-dihydroxy-3-methoxy-2-methylnaphthalene-1,4-dione, were isolated from the roots of Aloe secundiflora together with the known compounds chrysophanol, helminthosporin, isoxanthorin, ancistroquinone C, aloesaponarins I and II, aloesaponols I and II, laccaic acid d methyl ester and asphodelin. The structures were elucidated based on spectroscopic evidence. This appears to be the first report on the occurrence of naphthoquinones in the genus Aloe. Aloesaponarin I and 5-hydroxy-3,6-dimethoxy-2-methylnaphthalene-1,4-dione showed anti-bacterial activity against Mycobacterium tuberculosis with MIC values of 21–23 μg/mL in the Microplate Alamar Blue Assay (MABA) and Low Oxygen Recovery Assay (LORA); 5-hydroxy-3,6-dimethoxy-2-methylnaphthalene-1,4-dione also showed cytotoxicity against the Vero cell line (IC₅₀ = 10.2 μg/mL).     

Chiral Discrimination by Ionic Liquids: Impact of Ionic Solutes

Chiral ionic liquids hold promise in many asymmetric applications. This study explores the impact of ionic solutes on the chiral discrimination of five amino acid methyl ester‐based ionic liquids, including L‐ and D‐alanine methyl ester, L‐proline methyl ester, L‐leucine methyl ester, and L‐valine methyl ester cations combined with bis(trifluoromethanesulfonimide) anion. Circularly polarized luminescence spectroscopy was used to study the chiral discrimination by measuring the racemization equilibrium of a dissymmetric europium complex, Eu(dpa)₃^3? (where dpa = 2,6‐pyridinedicarboxylate). The chiral discrimination measured was dependent on the concentration of Eu(dpa)₃^3? and this concentration‐dependence was different in each of the ionic liquids. Ionic liquids with L‐leucine methyl ester and L‐valine methyl ester even switched enantiomeric preference based on the solute concentration. Changing the cation of the Eu(dpa)₃^3? salt from tetrabutylammonium to tetramethylammonium ion also affected the chiral discrimination demonstrated by the ionic liquids. Chirality 27:320–325, 2015. © 2015 Wiley Periodicals, Inc.     

Regulation of Pyrimidine Biosynthesis in Intact Cells of Cucurbita pepo

The occurrence of the complete orotic acid pathway for the biosynthesis de novo of pyrimidine nucleotides was demonstrated in the intact cells of roots excised from summer squash (Cucurbita pepo L. cv. Early Prolific Straightneck). Evidence that the biosynthesis of pyrimidine nucleotides proceeds via the orotate pathway in C. pepo included: (a) demonstration of the incorporation of [¹⁴C]NaHCO₃, [¹⁴C]carbamylaspartate, and [¹⁴C]orotic acid into uridine nucleotides; (b) the isolation of [¹⁴C]orotic acid when [¹⁴C]NaHCO₃ and [¹⁴C]carbamylaspartate were used as precursors; (c) the observation that 6-azauridine, a known inhibitor of the pathway, blocked the incorporation of early precursors into uridine nucleotides while causing a concomitant accumulation of orotic acid; and (d) demonstration of the activities of the component enzymes of the orotate pathway in assays employing cell-free extracts.     

Biosynthetic relations between protoberberine-, benzo(C)phenanthridine- and B-secoprotoberberine type alkaloids in Corydalis incisa

The biosynthetic relations between protoberberine-, benzo[C]phenanthridine- and B-secoprotoberberine type alkaloids were demonstrated by use of (±)-tetrahydrocoptisine-[8,14-³H HCl, (±)-tetrahydrocorysamine-[8,14-³H]HCl and corynoline-[6-³H]HCl in Corydalis incisa, and the following results were presented. (±)-Tetrahydrocoptisine was converted to corynoline, corydalic acid methyl ester and corydamine hydrochloride. (±)-Tetrahydrocorysamine was converted to corynoline and corydalic acid methyl ester. Evidence that N-methyl-3-[6′-(3′,4′-methylenedioxyphenethylalcohol)]-4-methyl-7,8-methylenedioxy-1,2,3,4-tetrahydroisoquinoline-[α-³H] HCl was incorporated into corynoline-[11-³H] indicates the occurrence of the ring fission at C₆-N followed by linking ofthe C₆ and C₁₃ positions in (±)-tetrahydrocoptisine and (±)-tetrahydrocorysamine, and suggests the participation of one of two possible intermediates in the biosynthesis of these alkaloids.     

Gibberellin estimation and biosynthesis in germinating Hordeum distichon

Gibberellic acid (GA₃) and 13-deoxy-gibberellic acid (GA₇) were identified in extracts of germinating barley as their ¹⁴C-methyl esters. The maximal level of GA₃ was estimated by an isotopic dilution procedure to be 1·5 ng per grain. Germinating barley incorporated 2-¹⁴C-mevalonic acid into several terpenes, whose specific radioactivities were measured, but incorporation into GA₃ could not be detected. Cell-free embryo extracts from germinating barley converted 2-¹⁴C-mevalonic acid into isopentenol, dimethylallyl alcohol, farnesol and squalene, while ¹⁴C-isopentenyl pyrophosphate was incorporated into geraniol, farnesol, geranylgeraniol and squalene. There was no detectable incorporation into the gibberellin intermediate ent-kaurene.     

The synthesis of 6,9-deepoxy-6,9-N-phenylimino-Δ6,8-prostaglandin I1 a novel inhibitor of leukotriene C and D synthesis

The pyrrole analog of prostacyclin, 6,9-deepoxy-6,9-N-phenylimino-Δ^6,8-prostaglandin I₁ was synthetized from PGF₂α methyl ester. This pyrroloprostacyclin (U-60, 257) and its methyl ester (U-56, 467) have been shown to inhibit leukotriene C/D biosynthesis and antagonized leukotriene C/D contractions in vitro. Antigen induced bronchopulmonary changes in monkeys and guinea pigs are inhibited by U-60, 257 in vivo.     

Regulation of pyrimidine biosynthesis by purine and pyrimidine nucleosides in slices of rat tissue

Evidence of the primary sites for the regulation of de novo pyrimidine biosynthesis by purine and pyrimidine nucleosides has been obtained in tissue slices through measurements of the incorporation of radiolabeled precursors into an intermediate and end product of the pathway. Both purine and pyrimidine nucleosides inhibited the incorporation of [¹⁴C]-NaHCO₃ into orotic acid and uridine nucleotides, and the inhibition was found to be reversible upon transferring the tissue slices to a medium lacking nucleoside. The ammonia-stimulated incorporation of [¹⁴C]NaHCO₃ into orotic acid, which is unique to liver slices, was sensitive to inhibition by pyrimidine nucleosides at physiological levels of ammonia, but this regulatory mechanism was lost at toxic levels of ammonia. Adenosine, but not uridine, was found to have the additional effects of inhibiting the conversion of [¹⁴C]orotic acid to UMP and depleting the tissue slices of PRPP. Since PRPP is required as an activator of the first enzyme of the de novo pathway, CPSase II, and a substrate of the fifth enzyme, OPRTase, these results indicate that adenosine inhibits the incorporation of [¹⁴C]NaHCO₃ into orotic acid and the incorporation of [¹⁴C]orotic acid into UMP by depriving CPSase II and OPRTase, respectively, of PRPP. Uridine or its metabolites, on the other hand, appear to control the de novo biosynthesis of pyrimidines through end product inhibition of an early enzyme, most likely CPSase II. We found no evidence of end product inhibition of the conversion of orotic acid to UMP in tissue slices.     

Lipid Metabolism of Rumen Ciliates and Bacteria: I. Uptake of Fatty Acids by Isotricha prostoma and Entodinium simplex

Washed suspensions of the ruminal ciliates, Isotricha prostoma and Entodinium simplex, concentrated C¹⁴-labeled oleic, palmitic, stearic, and linoleic acids within the cells during short incubation periods. Radioautographs demonstrated that oleic acid-1-C¹⁴ was hydrogenated to stearic acid by I. prostoma, and Warburg manometric data showed that the sodium salts of oleic, valeric, caproic, and acetic acids, and methyl myristate, methyl laurate, and the triglyceride tributyrin stimulated fermentation of I. prostoma. The total lipid and free fatty acid contents of I. prostoma were determined.     

Vitamin K1 dependent carboxylase: β-Carboxylation of t-butyloxycarbonylaspartic acid α-benzyl ester

Rat liver microsomes solubilized by Triton X-100 catalyze the vitamin K₁ dependent incorporation of carbon-14 from [¹⁴C]NaHCO₃ into t-butyloxycarbonylaspartic acid α-benzyl ester. High voltage electrophoresis of the alkaline hydrolysate of the products of this reaction demonstrates the presence of a labelled species (A) whose electrophoretic mobility is identical to that of β-carboxyaspartic acid. High voltage electrophoresis of the acid-treated products reveals the disappearance of A and the appearance of a labelled species whose electrophoretic mobility is identical to that of aspartic acid. These experiments provide unequivocal evidence for the vitamin K₁ dependent β-carboxylation of an aspartic acid side chain, and they constitute the first report of such an enzymatic activity in microsomes.     

Biosynthesis of lipids in chloroplasts isolated from jack pine needles

Suspensions of isolated pine needle chloroplasts were shown to incorporate galactose from UDP galactose-[¹⁴C] into galactolipids. The incorporation of the label among galactolipids was always considerably higher in the monogalactosyl diglycerides than in the digalactosyl diglycerides. The galactosyl incorporation into both galactolipid fractions was optimal at pH 8.0 and was inhibited by sulphydryl reagents (p-chloromercuribenzoate, N-ethyl maleimide and CdCl₂). The chloroplast preparations were also able to biosynthesize various phospholipids and galactolipids from palmitoyl-[1-¹⁴C]-CoA; the major portion of the label appeared in phosphatidyl choline. The incorporation of palmitic-[1-¹⁴C] acid into various lipids was very poor compared to that of palmitoyl-[1-¹⁴C]-CoA. However, addition of ATP and CoA markedly stimulated lipid biosynthesis from palmitic-[1-¹⁴C] acid, suggesting the presence of activating enzymes. These chloroplast suspensions did not show any de novo fatty acid synthesis.     

Studies on Sporopollenin Biosynthesis in Tulipa Anthers

Investigations were carried out to clarify sporopollenin biosynthesis. Tracer experiments were focussed on the incorporation of specifically labeled ¹⁴C-phenylalanine into sporopollenin. In addition, the incorporation of further ¹⁴C-labeled substances, such as glucose, acetate, malonic acid, mevalonate and tyrosine, was investigated. The sporopollenin fraction was isolated and purified by a gentle method including extractions by different solvents, incubations with hydrolyzing enzymes and fractionated saponifications. During the purification procedure the whereabouts of the initially applied radioactivity was followed. After each step the remaining as well as the released radioactivity was determined. Saponification of samples labeled after application of phenylalanine yielded p-coumaric acid and p-coumaric acid methyl ester as labeled products. In comparison with the other substances applied, the highest incorporation rates were obtained with phenylalanine, regardless of the position of labeling. After degradation of the sporopollenin sample labeled with ring-¹⁴C-phenylalanine, p-hydroxybenzoic acid was detected as the main labeled product. These results unequivocally show that an integral incorporation of the aromatic ring system occurred. Tracer experiments were carried out at different stages of development. Their results show that, although the incorporation rates of ¹⁴C-phenylalanine into sporopollenin differ, the substantial incorporation of this substance is not bound to defined stages of development.     

Biosynthesis of anthraquinones and related compounds in Galium mollugo cell suspension cultures

From Galium mollugo cell suspension cultures, 1,4-dihydroxy-3-prenyl-2-naphtholic acid methyl ester diglucoside was isolated along with anthraquinones and mollugin. Production of the diglucoside was much increased by administering 2-succinylbenzoate to the cultures. The incorporation of 2-succinylbenzoate into lucidin-3-primeveroside, mollugin and the diglucoside in the mode so far proposed for rubiaceous anthraquinones was verified by administration of ¹³C-labelled 2-succinylbenzoate to the cell cultures.     

Biosynthesis of piperlongumine

The incorporation of l-[U-¹⁴C]lysine and l-[U-¹⁴C]phenylalanine into piperlongumine has been demonstrated in Piper longum. The subsequent stepwise degradation to methyl-(3,4,5-trimethoxyphenyl)-propanoate and δ-aminovaleric acid revealed that the C₆-C₃ moiety of the alkamide arises from phenylalanine; the heterocyclic ring is biosynthesised from lysine. It has also been shown that dl-[2-¹⁴C]tyrosine and [2-¹⁴C]sodium acetate are poor precursors of piperlongumine.     

Effect of Light on Mevalonic Acid Incorporation into the Phytosterols of Nicotiana tabacum L. Seedlings

Mevalonic acid-2-¹⁴C was readily incorporated into the free, esterified, and glycosidic sterol fractions of tobacco (Nicotiana tabacum L. var. Burley 21) seedlings. The time course of mevalonic acid-2-¹⁴C incorporation was different for the various individual sterols. Campesterol and sitosterol (group I) became radioactive as the free sterol and subsequently as the steryl ester. The reverse order was observed for cholesterol and stigmasterol (group II). Light stimulated the incorporation of mevalonic acid-2-¹⁴C into the group I free sterols and during the first 6 to 9 hours into the steryl esters of group II. The increase in specific radioactivity of the group II steryl esters was followed by a decline. Based on time course studies it is suggested that the group II steryl esters turn over rapidly and that light influences the rate of turnover.     

Cervical dilatation with prostaglandin analogues prior to vaginal termination of first trimester pregnancy in nulliparous patients

Dilatation of the cervix with prostaglandin analogues prior to vaginal termination of pregnancy was attempted in 125 nulliparous women in the first trimester of pregnancy. The patients were divided into five groups (25 in each group) and given a single extra-amniotic dose of one of the following prostaglandin analogues 14–16 hours prior to the evacuation of the uterus by vacuum aspiration. (Group A) 15 (S) 15 methyl PGE₂ (free acid); (Group B) 15 (S) 15 methyl PGE₂ methyl ester; (Group C) 15 (S) 15 methyl PGF_2α (free acid); (Group D) 15 (S) 15 methyl PGF_2α methyl ester and(Group E) a mixture of 15 (S) 15 methyl PGE₂ methyl ester and 15 (S) 15 methyl PGF_2α methyl ester. Evacuation of the uterus without mechanical dilatation of the cervix was possible in 111 (90%) of the patients. In an additional 10 patients (8%) there was some degree of cervical dilatation and further mechanical dilatation could be performed easily. With the combination of 15 (S) 15 methyl PGE₂ methyl ester and 15 (S) 15 methyl PGF_2α methyl ester the incidence of gastrointestinal side effects and pyrexia were considerably reduced.