Native acridone synthases I and II from Ruta graveolens L. form homodimers

Acridone synthase II cDNA was cloned from irradiated cell suspension cultures of Ruta graveolens L. and expressed in Escherichia coli. The translated polypeptide of Mr 42,681 revealed a high degree of similarity to heterologous chalcone and stilbene synthases (70-75%), and the sequence was 94% identical to that of acridone synthase I cloned previously from elicited Ruta cells. Highly active recombinant acridone synthases I and II were purified to apparent homogeneity by a four-step purification protocol, and the affinities to N-methylanthraniloyl-CoA and malonyl-CoA were determined. The molecular mass of acridone synthase II was estimated from size exclusion chromatography on a Fractogel EMD BioSEC (S) column at about 45 kDa, as compared to a mass of 44 +/- 3 kDa found for the acridone synthase I on Superdex 75. Nevertheless, the sedimentation analysis by ultracentrifugation revealed molecular masses of 81 +/- 4 kDa for both acridone synthases. It is proposed, therefore, that the acridone synthases of Ruta graveolens are typical homodimeric plant polyketide synthases.     

Elicitor induced secondary metabolism in Ruta graveolens L.

In vitro cultures of Ruta graveolens L. respond with rapid accumulation of acridone epoxides, furoquinolines and furanocoumarins, when challenged with autoclaved homogenate of the yeast Rhodotorula rubra. A transient increase of several enzymes of the respective biosynthetic pathways was measured but we still look for the key regulatory enzymes. We investigated whether the branch point enzymes of the shikimic acid pathway anthranilate synthase (AS) and chorismate mutase (CM) possibly play such a role. The two enzymes compete for chorismate. AS forms anthranilate, the precursor amino acid of acridone and furoquinoline alkaloids. CM channels chorismate into phenylalanine, tyrosine and phenylpropanoid biosynthesis. Elicitation resulted in a transient increase of the activity of both enzymes. Relative induction rates were 2–4 fold for AS and about 1.5 fold for CM. Constitutive CM activity, however, is about 1000 fold higher than AS activity. As in other plants 2 isoforms of CM are expected to be present in R. graveolens. A differential determination of the activity of the isoforms via the tryptophan activation rate proved to be ambiguous. Some evidence for the specific induction of a plastidic form of CM was obtained by inhibition of translation. The time courses of CM induction show CM not to be a key enzyme in elicitor induction of furanocoumarin accumulation. In comparison to other enzyme activities induction of anthranilate synthase activity corresponds closest to inducible acridone epoxide accumulation indicating a key role in its regulation. Induction of AS and CM was inhibited by actinomycin D and chloramphenicol while cycloheximid inhibited AS induction only.Abbreviations ACT actinomycin D - AS anthranilate synthase - CAP chloramphenicol - CHX cycloheximid - 4-CL 4-coumarate CoA ligase - CM chorismate mutase - DTT dithiothreitol - NMT S-adenosyl-L-methionine:anthranilic acid N-methyltransferase - PAL phenylalanine ammonia lyase - XOMT S-adenosylmethionine: xanthotoxol-O-methyltransferase     

Plastiden-Metamorphose und Pigmentgehalt in Kalluskulturen von Ruta graveolens L.

Die Ultrastruktur der Piastiden und der Pigmentgehalt in Kalluskulturen von Ruta graveolens L. wurden unter verschiedenen Kulturbedingungen untersucht. Die Entwicklung der Piastiden in Dauerlichtkulturen und in acht Wochen im Licht gewachsenen und dann verdunkelten Kalli entspricht einer Amyloplasten-Chloroplasten-Chromoplasten-Metamorphose. Dabei zeichnen sich die Chloroplasten grüner Kalli durch eine ungewöhnlich langgestreckte, äußere Form aus. In den Dauerdunkelkulturen werden keine Etioplasten, sondern zunächst wie in den Lichtkulturen Amyloplasten gebildet, aus denen sich verschieden gestaltete Leukoplasten entwickeln. Bei Belichtung der Dunkelkulturen findet eine Leukoplasten-Chloroplasten-Metamorphose statt. In bestimmten Entwicklungsstadien treten in den Piastiden kristallähnliche Körper auf. Grüne Kalli aus Lichtkulturen besitzen die typischen Pigmente grüner Blätter, allerdings in sehr geringer Menge. Kalli der Dauerdunkelkulturen bilden keine Chlorophylle und nur wenig Carotinoide, vor allem Neoxanthin und Violaxanthin. Während des Ergrünens belichteter Kalli aus ursprünglichen Dunkelkulturen nehmen der Chlorophyll- und Carotinoidgehalt der Kalli stark zu. Dabei bildete sich im Laufe mehrerer Wochen nach unterschiedlich intensiver Synthese der einzelnen Pigmente die Gesamtpigmentgarnitur der Lichtkulturen aus. Während der Alterung der Kalli im Licht und im Dunkeln nehmen die Chlorophyll- und Carotinoidgehalte der Kalli stark ab. Unser Dank gilt für anregende Diskussion und für Mithilfe bei der Untersuchung am Elektronenmikroskop Herrn Dr. O. Grundler sowie für ausgezeichnete technische Mitarbeit Frau A. Peschke , Frau M. Nöth und Frau A. Krüger. Der Deutschen Forschungsgemeinschaft sind wir für Sachbeihilfen und der Universität Würzburg für ein Forschungsstipendium (an R. K.) zu Dank verpflichtet.     

Accumulation of furanocoumarins in Ruta graveolens L. shoot culture

Ruta graveolens L. shoots cultured in stationary liquid phase produced furanocoumarins: psoralen, bergapten, xanthotoxin, isopimpinellin and imperatorin at the amount totalling almost 1 g/100 g dry wt of the shoots. The dominating metabolites were therapeutically important compounds: xanthotoxin – 0.33 g/100 g dry wt and bergapten – 0.32 g/100 g dry wt. Maximum contents of the majority of the compounds were observed on 28th day of culture.     

Biosynthesis of rutacridone in tissue cultures of Ruta graveolens L.

The dihydrofuroacridone, rutacridone, is the main alkaloid in tissue cultures of Ruta graveolens L. strain R-19. The biosynthesis of this particular acridone alkaloid was investigated by using calluses and suspension cultures of strain R-19. Anthranilic acid is specifically incorporated into ring A of rutacridone. Some further evidence was provided that acetate via a polyketide is involved in acridone biosynthesis. Mevalonic acid gave a poor incorporation into rutacridone. Thus the origin of the isopropyldihydrofuran moiety of the investigated alkaloid is still obscure.     

Unusual pseudosubstrate specificity of a novel 3,5-dimethoxyphenol O-methyltransferase cloned from Ruta graveolens L

A cDNA was cloned from Ruta graveolens cells encoding a novel O-methyltransferase (OMT) with high similarity to orcinol or chavicol/eugenol OMTs, but containing a serine-rich N-terminus and a 13 amino acid insertion between motifs IV and V. Expression in Escherichia coli revealed S-adenosyl-l-methionine-dependent OMT activity with methoxylated phenols only with an apparent Km of 20.4 for the prime substrate 3,5-dimethoxyphenol. The enzyme forms a homodimer of 84 kDa, and the activity was insignificantly affected by 2.0 mM Ca2+ or Mg2+, whereas Fe2+, Co2+, Zn2+, Cu2+ or Hg2+ were inhibitory (78-100%). Dithiothreitol (DTT) suppressed the OMT activity. This effect was examined further, and, in the presence of Zn2+ as a potential thiol methyltransferase (TMT) cofactor, the recombinant OMT methylated DTT to DTT-monomethylthioether. Sets of kinetic OMT experiments with 3,5-dimethoxyphenol at various Zn2+/DTT concentrations revealed the competitive binding of DTT with an apparent Ki of 52.0 microM. Thus, the OMT exhibited TMT activity with almost equivalent affinity to the thiol pseudosubstrate which is structurally unrelated to methoxyphenols.     

Potential allelochemicals from the essential oil of Ruta graveolens

The essential oil of aerial parts of Ruta graveolens was obtained by hydrodistillation with a 0.74% yield on a dry weight basis. Thirty-eight components were identified by GC and GC-MS analyses. 2-Ketones predominated in the essential oil, with undecan-2-one (46.8%) and nonan-2-one (18.8%) as the main constituents. The essential oil and some of its constituents were tested for their allelopathic activity in vitro on radish germination and radicle growth in light and darkness. The essential oil and some of its minor constituents were effective and dose-dependent inhibitors of both the germination and radicle growth; 2-ketones are not active. The possible allelopathic activity of rue essential oil and some its isolated constituents is reported.     

Identification of Ruta graveolens L. metabolites accumulated in the presence of abiotic elicitors

The study aimed to elucidate the effects of benzothiadiazole (BTH) and saccharin on the biosynthesis of simple coumarins, linear furanocoumarins, dihydrofuranocoumarins, and furoquinolone alkaloids in shoots of R. graveolens cultivated in vitro. The biosynthesized metabolites were analyzed and identified by GC-MS and by comparison of Kovats indices. Eight coumarin metabolites were identified: bergapten, chalepin, isopimpinelin, pinnarin, psoralen, rutacultin, rutamarin, and xanthotoxin, and also four alkaloids: dictamnine, gamma-fagarine, skimmianine, and kokusaginine. Each of the tested BTH concentrations induced a significant production of furanocoumarins and furoquinolone alkaloids. The use of saccharin also increased the production of bergapten, isopimpinelin, pinnarin, psoralen, and xanthotoxin several times.     

Specificities of functionally expressed chalcone and acridone synthases from Ruta graveolens.

The common rue, Ruta graveolens L., expresses two types of closely related polyketide synthases that condense three malonyl-CoAs with N-methylanthraniloyl-CoA or 4-coumaroyl-CoA to produce acridone alkaloids and flavonoid pigments, respectively. Two acridone synthase cDNAs (ACS1 and ACS2) have been cloned from Ruta cell cultures, and we report now the cloning of three chalcone synthase cDNAs (CHS1 to CHS3) from immature Ruta flowers. The coding regions of these three cDNAs differ only marginally, and the translated polypeptides show about 90% identity with the CHSs from Citrus sinensis but less than 75% with the Ruta endogeneous ACSs. CHS1 was functionally expressed in Eschericha coli and its substrate specificity compared with those of the recombinant ACS1 and ACS2. 4-Coumaroyl-CoA was the preferred starter substrate for CHS1, but cinnamoyl-CoA and caffeoyl-CoA were also turned over at significant rates. However, N-methylanthraniloyl-CoA was not accepted. In contrast, highly active preparations of recombinant ACS1 or ACS2 showed low, albeit significant, CHS side activities with 4-coumaroyl-CoA, which on average reached 16% (ACS1) and 12% (ACS2) of the maximal activity determined with N-methylanthraniloyl-CoA as the starter substrate, while the conversion of cinnamoyl-CoA was negligible with both ACSs. The condensation mechanism of the acridone ring system differs from that of chalcone/flavanone formation. Nevertheless, our results suggest that very minor changes in the sequences of Ruta CHS genes are sufficient to also accommodate the formation of acridone alkaloids, which will be investigated further by site-directed mutagenesis.     

DNA topoisomerase I inhibitors from Rinorea anguifera

An organic extract prepared from Rinorea anguifera was investigated in order to identify the natural principle(s) responsible for stabilization of a topoisomerase I-DNA covalent binary complex. Bioassay-guided fractionation resulted in the isolation of mauritianin and (+)-syringaresinol as new topoisomerase I inhibitors, and also of the known inhibitor camptothecin.     

Einfluß von D,L-Ethionin auf Zellkulturen von Ruta graveolens L

D,L-Ethionine was added in varying concentrations (0.1–1 mM) to two cell suspension cultures of Ruta graveolens. Growth, alkaloid formation and activities of some shikimate pathway-specific enzymes in these cultures were estimated. Also the effect of ethionine on shikimate pathwayspecific enzymes under in vitro conditions was followed. Growth is only slightly inhibited in supplemented cultures. Alkaloid formation is drastically reduced in a low-producing and to a lesser extent in the high producing cell line by ethionine. Activities of DAHP synthase, chorismate mutase, and anthranilate synthase in the presence of ethionine are in different Ruta strains to a varying degree affected.     

Cyto-physiological events during radish germination in the presence of a Ruta graveolens L. infusion

ABSTRACT

An infusion of Ruta graveolens L. was tested for its inhibitory effects upon radish germination at the cyto-physiological level. Radish seeds were placed under optimum conditions for germination either in water (control) or in the presence of rue infusion (treated seeds). Morpho-physiological observations indicate that in treated radish seeds the inhibition of germination is accompanied by reduced water uptake and delayed reactivation of the outermost living layer, i.e. the aleurone cells. Compared to the control, aleurone cells of treated seeds present many large lipid droplets and protein bodies, without differentiated organelles. Moreover, chemical and biochemical analyses show that the treatment impairs the metabolic pathways of germination, such as the mobilization and utilization of seed reserves, and the loosening of cell walls. In fact, in treated seeds we found i) increased contents of glucose and galactose, ii) higher concentration of malic acid and iii) lower activities of some glycosidases compared to the control. Results suggest that aleurone cells may play an active part in controlling the embryo's metabolism.     

Improved furanocoumarin production in Ruta graveolens L. regenerated via in vitro stem internode cultures

A rapid and efficient in vitro propagation protocol by enhanced multiple shoot proliferation from internode cultures of Ruta graveolens was established. Mean shoot number was maximum (55.83) in Murashige and Skoog (MS) basal medium fortified with 1.0 mg L^?1 benzyl amino purine and 0.25 mg L^?1 indole-3-acetic acid. The elongated shoots rooted within 10–12 days in 1/2-strength MS medium supplemented with 2.0 mg L^?1 indole 3-butyric acid. About 80 % of the rooted plantlets survived acclimatization and transfer to the field. Phytochemical analysis revealed that micropropagated plants produced linear furanocoumarins, characteristic of the species, in greater quantities as compared to the in vivo-grown plants. The results will facilitate the conservation of this valuable medicinal plant and to obtain plants with improved phytochemical constituents.     

Production of bioactive phenolic acids and furanocoumarins in in vitro cultures of Ruta graveolens L. and Ruta graveolens ssp. divaricata (Tenore) Gams. under different light conditions

Extracts from the biomass of Ruta graveolens and Ruta graveolens ssp. divaricata cultured in vitro under different light conditions (far-red, red and blue light, UV-A irradiation, in darkness and white light) were tested for the amounts of free phenolic acids and cinnamic acid (twelve compounds) as well as furanocoumarins and umbelliferone (seven compounds) using HPLC methods. Total amounts of the investigated groups of compounds in the cultures of both plants increased from 2.6 to 6.7 times, depending on light quality, and the maximum values reached were 106.50 and 1,276.74?mg?100?g^?1 DW (in R. graveolens), and 106.97 and 262.54?mg?100?g^?1 DW (in the subspecies), respectively. Both white light and blue light were equally beneficial for the total production of phenolic acids in cultures of both plants, whereas the total production of furanocoumarins was clearly better stimulated by blue light in R. graveolens and by darkness in the subspecies (i.e. the amounts were respectively 1.44 and 1.7 times higher than in the biomass cultivated under white light). The amounts of individual compounds in both plant cultures increased from about 2.2 to 26.3 times depending on light quality. The following bioactive compounds were obtained in quantities which are of interest from a practical perspective: in R. graveolens culture??protocatechuic acid (45?mg?100?g^?1 DW), isopimpinellin (about 500?mg?100?g^?1 DW) and bergapten (about 270?mg?100?g^?1 DW), and in the subspecies culture: p-coumaric acid (70?mg?100?g^?1 DW) and isopimpinellin (about 210?mg?100?g^?1 DW).     

Enhanced in vitro production of Ruta graveolens L. coumarins and rutin by mannitol and ventilation

Ruta graveolens shoot cultures were maintained on static medium supplemented with 0, 1, 2 and 3?% mannitol. The cultures were grown in vessels that ensured a ventilation rate of 7.44, 10.82 or 62.83 air exchanges per day (V1, V2 or V3, respectively). The growth index and fresh weight were significantly increased at 1?% mannitol and decreased with increasing mannitol concentrations, whereas the dry weight (DW) and DW?% increased at higher concentrations of mannitol. Improving the culture ventilation significantly increased all of these parameters. A higher concentration of mannitol resulted in a higher proline content and percentage of coumarins and rutin, but the final accumulation of these bioactive molecules decreased. The coumarins, calculated as xanthotoxin, were increased from 8.15 to 13.60?mg?g^?1 DW using (V1 and mannitol-free medium) and (V2 with medium enriched with 2?% mannitol), respectively. Rutin was linearly increased by raising the mannitol concentrations, achieving the highest content of 54.87?mg?g^?1 DW using V2 and medium supplemented with 3?% mannitol. The lowest accumulation of coumarins and rutin (32, 144?mg vessel^?1, respectively) were found on mannitol-free medium using V1, whereas the highest rutin contents were found on medium with 1?% mannitol using V3. A GC analysis revealed the presence of five main compounds in all of the cultures, coumarin, 7-hydroxucoumarin, scopoletin, xanthotoxin and bergapten, whereas pasoralen was not detected when the cultures were maintained on mannitol-free medium, regardless of the type of vessel. Moreover, the concentrations of these compounds varied according to the mannitol concentration and ventilation.     

Encapsulation of microcuttings for propagation and short-term preservation in Ruta graveolens L.: a plant with high medicinal value

Synthetic seeds technology is a potential tool for an efficient and cost-effective clonal propagation system. In the present study, synthetic seeds were produced by encapsulating nodal segments (synthetic or synseeds) of Ruta graveolens in calcium alginate gel. The best gel complex was achieved using 3 % sodium alginate and 100 mM CaCl₂.2H₂O. Maximum conversion response of synthetic seeds into plantlets was obtained on MS medium supplemented with 10 μM 6-benzyladenine (BA) and 2.5 μM α-naphthalene acetic acid (NAA). Encapsulated nodal segments could be stored at low temperature (4 °C) up to 4 weeks with a survival frequency of 86.7 %. The regenerated shoots rooted on MS medium containing 0.5 μM indole-3-butyric acid (IBA). Well-developed plantlets with proper root and shoot system from encapsulated nodal segments were hardened off successfully with 90 % survival rate. The high frequency of plant re-growth (conversion) from alginate-coated nodal segments coupled with high viability percentage after 4 weeks of storage is highly encouraging for the exchange of R. graveolens genetic resources.