Production of theanine and other γ-glutamyl derivatives by Camellia sinensis cultured cells

The maximum theanine production by Camellia sinensis cultured cells was achieved by culturing in the modified MS medium containing 2 mg/l indole-3-butyric acid, 0.1 mg/l kinetin, 0 mM NH₄NO₃ and 39.6 mM KNO₃ with 40 mM ethylamine hydrochloride or 20 mM ethylamine hydrochloride and 10 mM L-glutamic acid. Other primary amines, such as methylamine, n-butylamine, 2-hydroxyethylamine, 2cyanoethylamine, aniline, benzylamine and phenylethylamine, were also biotransformed to N⁵-alkyl-L-glutamine derivatives by C. sinensis cultured cells.Abbreviations IBA indole-3-butyric acid - K kinetin - MS medium Murashige and Skoog's basal medium (1962) - NMR nuclear magnetic resonance Part 70 in the series Studies on Plant Tissue Culture. For Part 69 see Furuya et al. (1990).     

Biosynthesis of a β-(1 → 4)-mannan in fenugreek seedlings

A particulate enzymatic preparation, extracted from fenugreek seedlings (Trigonella foenum-graecum) catalyses the transfer of mannose from guanosine diphosphate-[U-¹⁴C]mannose and its incorporation into an alkali-soluble polysaccharide. Chemical and enzymatic study of this polysaccharide reveals the presence of only one type of osidic linkage, namely β-(1 → 4)-s-mannopyranosyl. The influence of some factors on this biosynthesis was studied, as well as the MW of the polysaccharide and the existence of an endogenous acceptor.     

Biosynthesis of poly(γ-glutamic acid) from l-glutamic acid,citric acid,and ammonium sulfate in Bacillus subtilis IFO3335

Poly(-glutamic acid) (PGA) production in Bacillus subtilis IFO3335 was studied. When l-glutamic acid, citric acid, and ammonium sulfate were used as carbon and nitrogen sources, a large amount of PGA without a by-product such as a polysaccharide was produced. The time courses of cell growth, PGA, glutamic acid, and citric acid concentrations during cultivation were investigated. It was found that glutamic acid added to the medium was apparently not assimilated. It can be presumed that the glutamic acid unit in PGA is mainly produced from citric acid and ammonium sulfate. The PGA productivity was investigated at various concentrations of ammonium sulfate in the media, which caused the depression of cell growth, high productivity of PGA, and the production of PGA with a high relative molecular mass. The yield of PGA determined by gel permeation chromatography (GPC) reached approximately 20 g/l. This yield was the highest value for PGA production by B. subtilis IFO3335, suggesting that B. subtilis IFO3335 was a bacterium that could produce PGA effectively. Time courses relative to the molecular mass of PGA at various concentrations of ammonium sulfate were investigated. It was suggested that B. subtilis IFO3335 excreted a PGA degradation enzyme with the progress of cultivation and that PGA was degraded by this enzyme. Correspondence to: M. Kunioka     

Biosynthesis of poly (γ-glutamic acid) from l-glutamine,citric acid and ammonium sulfate in Bacillus subtilis IFO3335

Poly(-glutamic acid) (PGA) production in Bacillus subtilis IFO3335 was studied. PGA was only slightly produced from medium (100 ml) containing 2 g citric acid and 0.5 g ammonium sulfate in B. subtilis IFO3335. When 0.01 g/100 ml l-glutamine was added to this medium, a large amount of PGA (0.45 g/100 ml), without any by-products such as polysaccharides, was produced. The changes in cell growth, and PGA, glutamic acid, citric acid and ammonium sulfate concentrations in this medium during cultivation were investigated. It was found that PGA was effectively produced for the short time of 20 h after an induction period and that glutamic acid was scarcely excreted during PGA production. PGA could be effectively produced using this medium containing l-glutamine, citric acid and ammonium sulfate. It is suggested that a small amount of l-glutamine added to the medium activated enzymes in the pathway of PGA synthesis in B. subtilis IFO3335. It can be presumed that the enzyme catalyzing the reaction from 2-oxoglutaric acid to l-glutamic acid was glutamate synthase in this bacterium.     

Biosynthesis and Hydrolysis of Poly(γ-glutamic acid) from Bacillus subtilis IF03335

Poly(γ-glutamic acid) (PGA) production in Bacillus subtilis IF03335 was studied. When citric acid as a carbon source was added to a glutamic acid medium containing L-glutamic acid and ammonium sulfate, a large amount of pure PGA was produced. On the other hand, when glucose was added to the glutamic acid medium, a by-product was produced, which seemed to be a polysaccharide. Moreover, the mode of hydrolysis was investigated with PGA in aqueous solutions at 80, 100, and 120°C by monitoring the time-dependent changes in the molecular weights. Hydrolytic degradation of PGA was found to proceed through a random chain scission.     

Biosynthesis of δ-aminolevulinic acid in Rhodopseudomonas sphaeroides

The biosynthesis of δ-aminolevulinic acid was investigated in three strains of Rhodopseudomonas sphaeroides. A wild-type strain (NCIB 8253) possessed both δ-aminolevulinic acid synthetase and γ,δ-dioxovaleric acid transaminase in the cytoplasmic and membrane cell fractions. δ-Aminolevulinic acid synthetase activities were not detected in extracts of mutant strains H5 and H5D. However, γ,δ-dioxovaleric acid transaminase was found in the cytoplasmic and membrane fractions of these latter two strains. Strain H5 required exogenously added δ-aminolevulinic acid for growth and bacteriochlorophyll synthesis. Strain H5D did not require this compound for growth and bacteriochlorophyll synthesis. γ,δ-Dioxovaleric acid added in the growth medium did not support the growth of H5, although it was actively transported into the cells. Addition of γ,δ-dioxovaleric acid to the growth medium did not enhance the growth of either the wild-type or H5D strains. These results indicate that ALA synthetase is not required for growth and bacteriochlorophyll synthesis in H5D and that γ,δ-dioxovaleric acid is probably not an intermediate in the formation of δ-aminolevulinic acid in the strains of Rhodopseudomonas sphaeroides studied. In strain H5D another pathway may function in the formation of δ-aminolevulinic acid other than that catalyzed by δ-aminolevulinic acid synthetase or γ,δ-dioxovaleric acid transaminase.     

Stimulation of RNA synthesis in cowpea (Vigna sinensis) seedlings by gibberellic acid and adenosine 3′,5′-cyclic monophosphate

There is about 50% stimulation in the incorporation of [³H]uridine into total RNA of cowpea following the application of gibberellic acid (GA₃) and adenosine 3′,5′-cyclic monophosphate (cyclic AMP). Cyclic AMP is very specific in its action. Co-fractionation of ³H- and ¹⁴C-labelled RNA on acrylamide-agarose gels reveal a control by GA₃ and cyclic AMP predominantly on its polydisperse fraction. Both GA₃ and cyclic AMP appear to act through a similar mechanism.     

Differential Metabolic Profiles during the Albescent Stages of ‘Anji Baicha’ (Camellia sinensis)

‘Anji Baicha’ is an albino tea cultivar with white shoots at low air temperature and green shoots at high air temperature in early spring. The metabolite contents in the shoots dynamically vary with the color changes and with shoot development. To investigate the metabolomic variation during the albescent and re-greening stages, gas chromatography–mass spectrometry combined with multivariate analysis were applied to analyze the metabolite profiles in the different color stages during the development of ''Anji Baicha'' leaves. The metabolite profiles of three albescent stages, including the yellow-green stage, the early albescent stage, and the late albescent stage, as well as the re-greening stage were distinguished using principal component analysis, revealing that the distinct developmental stages were likely responsible for the observed metabolic differences. Furthermore, a group classification and pairwise discrimination was revealed among the three albescent stages and re-greening stage by partial least squares discriminant analysis. A total of 65 differential metabolites were identified with a variable influence on projection greater than 1. The main differential metabolic pathways of the albescent stages compared with the re-greening stage included carbon fixation in photosynthetic organisms and the phenylpropanoid and flavonoid biosynthesis pathways. Compared with the re-greening stage, the carbohydrate and amino acid metabolic pathways were disturbed during the albescent stages. During the albescent stages, the sugar (fructofuranose), sugar derivative (glucose-1-phosphate) and epicatechin concentrations decreased, whereas the amino acid (mainly glycine, serine, tryptophan, citrulline, glutamine, proline, and valine) concentrations increased. These results reveal the changes in metabolic profiling that occur during the color changes associated with the development of the albino tea plant leaves.     

Biosynthesis of D-glucaric acid in mammals: a free-radical mechanism?

In the presence of iron salts and hydrogen peroxide, D-glucuronic acid was converted into D-glucaric acid. The reaction was strongly inhibited by free-radical scavengers and is ascribed to the action of the hydroxyl radical. The formation of D-glucarate was dependent upon pH and occurred in the presence of some iron-complexing agents. The first product of oxidation was a lactone that was a strong inhibitor of beta-D-glucuronidase and assumed to be D-glucaro-1,5-lactone. Microsomal preparations in the presence of NADPH also produced D-glucarate from D-glucuronic acid, presumably due to formation of hydrogen peroxide, and the product was an inhibitor of beta-D-glucuronidase. Superoxide did not produce D-glucarate from D-glucuronate. The cytochrome P450 system is more likely than "glucuronolactone dehydrogenase" to be responsible for the production of D-glucaric acid in vivo.     

High Level of Genetic Diversity Among the Selected Accessions of Tea (Camellia sinensis) from Abandoned Tea Gardens in Western Himalaya

To revive cultivation of the tea unique to the western Himalayan region, it is important to evaluate the seed-derived bushes available in the area's abandoned gardens. This study used quantitative leaf characters, catechin content, and AFLP markers to assess these China cultivar type bushes. Compared with other China cultivar germplasm, these accessions showed a higher level of diversity among themselves. Among the quantitative morphological characters, leaf length is important in distinguishing the accessions studied, with a high loading value in the principal component analysis. The catechins and AFLP markers displayed the genetic makeup of the accessions. Other than total catechins, the trihydroxylated catechins showed a high loading value in differentiating the accessions. The genetic control of the ratio of dihydroxylated and trihydroxylated catechins is found to be based on a correlation with AFLP markers. The genetic similarity between Kangra Asha and Kangra Jat suggests that Kangra Jat must be descended from Kangra Asha. Kangra Jat is well adapted to local environmental conditions, as is evident from its high catechin content.     

Biosynthesis and metabolic roles of cadystins (γ-EC)nG and their precursors in Datura innoxia

Metal-tolerant Datura innoxia cells synthesize large amounts of cadystin, [poly(-glutamylcysteinyl) glycines, (-EC)_nG, n=2–5], a class of metal-binding polypeptides, when exposed to Cd. These polypeptides have a high affinity for Cd (II) and certain other metal ions and are thought to play a role in metal tolerance in higher plants. Cells rapidly synthesize these metal-binding polypeptides when exposed to Cd and cellular concentrations of glutathione and cysteine, precursors for the synthesis of these compounds, are initially depleted then rapidly replenished. The time-frame of de novo polypeptide, glutathione and cysteine biosynthesis suggests that this pathway is, at least initially, regulated at the enzyme level. Significant amounts of Fe are associated with Cd: polypeptide complexes isolated from D. innoxia. Exposure of cultures to Cd results in an increased Fe accumulation by the cells. All the additional Fe found in the soluble portion of cell extracts is associated with the Cd: polypeptide complexes. The physiological significance of the synthesis of these polypeptides and their precursors and its relevance to Cd tolerance and metal homeostasis are discussed.     

γ-Irradiation of malic acid in aqueous solutions

The -irradiation of malic acid in aqueous solutions was studied under initially oxygenated and oxygen-free conditions in an attempt to determine the possible interconversion of malic acid into other carboxylic acids, specifically those associated with Krebs cycle. The effect of dose on product formation of the system was investigated. Gas-liquid chromatography combined with mass spectrometry was used as the principal means of identification of the non-volatile products. Thin layer chromotography and direct probe mass spectroscopy were also employed.The findings show that a variety of carboxylic acids are formed, with malonic and succinic acids in greatest abundance. These products have all been identified as being formed in the -irradiation of acetic acid, suggesting a common intermediary. Since these molecules fit into a metabolic cycle, it is strongly suggestive that prebiotic pathways provided the basis for biological systems.     

Role of uptake inγ-aminobutyric acid (GABA)-mediated responses in guinea pig hippocampal neurons

Intracellular recordings were obtained from hippocampal pyramidal neurons maintained in vitro. Measurements were made of the conductance change induced by iontophoretically applied gamma-aminobutyric acid (GABA) and, using voltage-clamp techniques, of inhibitory postsynaptic currents resulting from activation of inhibitory pathways. Analysis of GABA iontophoretic charge-response curves indicated that there was considerable variation among neurons with respect to the slope of this relation. The placement of the GABA-containing pipette did not appear to be responsible for the observed variation, since vertical repositioning of the pipette did not alter the slope of the charge-response relationship. Steady iontophoresis of GABA from one barrel of a double-barreled pipette markedly affected the charge-response relation obtained when short pulses were applied to the other barrel. The curve was shifted to the left, and the slope was decreased. Concomitantly, the enhanced GABA-induced responses were prolonged. Similar alterations in GABA responsiveness were observed when the uptake blocker, nipecotic acid, was iontophoretically applied. Furthermore, bath application of saline containing a reduced sodium concentration (25% of control) also produced a prolongation of GABA-mediated responses. Under voltage clamp, inhibitory postsynaptic currents were observed to have biphasic decays. The initial, fast decay was prolonged by an average of 18% by nipecotic acid, whereas the later, slow phase was prolonged by 23%. The results of these studies support the hypothesis that a saturable GABA uptake system is responsible for the observed variation in the charge-response curves and, in turn, underlies the apparent sensitizing effect of excess GABA application. The results also suggest that a reduction of transmitter uptake affects the time course of inhibitory postsynaptic currents in the hippocampus.     

Liver-targeting of primaquine-(poly-γ-glutamic acid) and its degradation in rat hepatocytes

We have synthesized poly-γ-glutamic acid (PGA) modified with a synthetic trivalent glyco-ligand (TriGalNAc) for the hepatocyte asialoglycoprotein receptor (ASGP-R). We investigated in vivo distribution of unmodified PGA and TriGalNAc-modified PGA (TriGalNAc-PGA) in mice after intravenous injection. Most of unmodified PGA administered was transported to the bladder over 20–80 min, suggesting a rapid excretion of unmodified PGA into urine. In contrast, TriGalNAc-PGA was found exclusively in the liver over the same period of time. We further synthesized TriGalNAc-PGA–primaquine conjugate (TriGalNAc-PGA–PQ), and investigated binding, uptake, and catabolism of the conjugate by rat hepatocytes. Our studies indicated that approximately 250 ng per million cells of the conjugate bound to one million rat hepatocytes at 0 °C, and approximately 2 μg per million cells of the conjugate was taken up over 7 h incubation at 37 °C. Furthermore, our results suggested that TriGalNAc-PGA–PQ was almost completely degraded over 24 h, and small degradation products were secreted into cell culture medium.The results described in this report suggest that the TriGalNAc ligand can serve as an excellent targeting device for delivery of PGA-conjugates to the liver hepatocytes, and rat hepatocytes possess sufficient capacity to digest PGA even modified with other substituents.     

Glutamic acid decarboxylase of embryonic avian retina cells in culture: Regulation byγ-aminobutyric acid (GABA)

1. Retina-cell aggregate cultures expressed glutamate decarboxylase activity (L-glutamate 1-carboxylase; EC 4.1.1.15) as a function of culture differentiation. 2. Glutamic acid decarboxylase (GAD) activity was low in the initial phases of culture and increased eight-fold until culture day 7, remaining high up to day 13 (last stage studied). 3. The addition of GABA to the culture medium 24 h after cell seeding almost totally prevented the expression of GAD activity. 4. In association with decreased enzyme activity, aggregates exposed to GABA did not display immunoreactivity for GAD, suggesting that GAD molecules were either lost from GABAergic neurons or significantly altered with GABA treatment. 5. Control, untreated aggregates showed intense GAD immunoreactivity in neurons. Positive cell bodies were characterized by a thin rim of labeled cytoplasm with thickest labeling at the emergence of the main neurite. 6. Heavily labeled patches were also observed throughout the aggregates, possibly reflecting regions enriched in neurites. 7. The GABA-mediated reduction of GAD immunoreactivity was a reversible phenomenon and could be prevented by picrotoxin.