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.     

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.     

Algicidal and antifungal compounds from the roots of Ruta graveolens and synthesis of their analogs

Bioassay-guided fractionation of the ethyl acetate extract of Ruta graveolens roots yielded rutacridone epoxide with potent selective algicidal activity towards the 2-methyl-isoborneol (MIB)-producing blue-green alga Oscillatoria perornata, with relatively little effect on the green alga Selenastrum capricornutum. The diol-analog of rutacridone epoxide, gravacridondiol, which was also present in the same extract, had significantly less activity towards O. perornata. Rutacridone epoxide also showed significantly higher activity than commercial fungicides captan and benomyl in our micro-bioassay against the agriculturally important pathogenic fungi Colletotrichum fragariae, C. gloeosporioides, C. acutatum, and Botrytis cineara and Fusarium oxysporium. Rutacridone epoxide is reported as a direct-acting mutagen, precluding its use as an agrochemical. In order to understand the structure-activity relationships and to develop new potential biocides without toxicity and mutagenicity, some analogs containing the (2-methyloxiranyl)-dihydrobenzofuran moiety with an epoxide were synthesized and tested. None of the synthetic analogs showed comparable activities to rutacridone epoxide. The absolute stereochemistry of rutacridone was determined to be 2'(R) and that of rutacridone epoxide to be 2'(R), 3'(R) by CD and NMR analysis.     

Relaxant effects of a hydroalcoholic extract of Ruta graveolens on isolated rat tracheal rings

Background

Ruta graveolens L. (R. graveolens) is a medicinal plant employed in non-traditional medicines that has various therapeutic properties, including anthelmintic, and vasodilatory actions, among others. We evaluated the trachea-relaxant effects of hydroalcoholic extract of R. graveolens against potassium chloride (KCl)- and carbachol-induced contraction of rat tracheal rings in an isolated organ bath.

Results

The results showed that the airway smooth muscle contraction induced by the depolarizing agent (KCl) and cholinergic agonist (carbachol) was markedly reduced by R. graveolens in a concentration-dependent manner, with maximum values of 109 ± 7.9 % and 118 ± 2.6 %, respectively (changes in tension expressed as positive percentages of change in proportion to maximum contraction), at the concentration of 45 μg/mL (half-maximal inhibitory concentration IC₅₀: 35.5 μg/mL and 27.8 μg/mL for KCl- and carbachol-induced contraction, respectively). Additionally, the presence of R. graveolens produced rightward parallel displacement of carbachol dose–response curves and reduced over 35 % of the maximum smooth muscle contraction.

Conclusions

The hydroalcoholic extract of R. graveolens exhibited relaxant activity on rat tracheal rings. The results suggest that the trachea-relaxant effect is mediated by a non-competitive antagonistic mechanism. More detailed studies are needed to identify the target of the inhibition, and to determine more precisely the pharmacological mechanisms involved in the observed biological effects.     

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.     

Optimized culture conditions for the production of furanocoumarins by micropropagated shoots of Ruta graveolens

Ruta graveolens in vitro cultures are a potential source of secondary metabolites (furanocoumarins) of significant medical interest. Experiments led in our laboratory showed that micropropagated shoots were richer in furanocoumarins than any other plant material. In order to optimize the molecule production by such cultivation systems, several factors related to the culture medium were studied. Effects of medium composition on biomass growth and furanocoumarin content were analysed and optimal conditions were determined for phosphate (300 mg l⁻¹ of NaH₂PO₄), nitrate (2527 mg l⁻¹ of KNO₃), carbon source (10 g l⁻¹ of sucrose) and phytohormones (2,4-dichlorophenoxyacetic acid (2,4-D) 50 μM and benzylaminopurine (BAP) 50 μM). Ruta shoot growth and furanocoumarin production were compared for optimized and standard culture conditions. Specific medium gave better results in terms of growth (t_D equal to 6.9 days against 8.6 for standard conditions) but no significant differences appeared concerning metabolite concentrations. However, the present study opens the way to scale-up studies with bioreactor cultivation systems. This revised version was published online in June 2006 with corrections to the Cover Date.     

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).     

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.     

SC-CO2和乙酸乙酯萃取芸香中活性成分的比较分析

为了探讨超临界二氧化碳(supercritical carbon dioxide, SC-CO2)技术与提取物的分级分离在萃取芸香活性成分的应用价值,本研究采用SC-CO2和乙酸乙酯萃取芸香中植物蜡和活性成分,并调查粒径和CO2流量对提取产量的影响。在250 bar、40℃条件下提取,并使第一个分离器冷却到-10℃,可获得较好的提取效率。当粒径较小时,提取过程更快,即内部传质控制该过程。分级分离可选择性去除表皮植物蜡,约占由SC-CO2处理产生的总提取物的77.5%W/W。第二分离器中的获得的提取物中活性化合物可达86.3%W/W。随后采用气相色谱-质谱联用仪(gas chromatography-mass spectrometry, GC-MS)分析表明,乙酸乙酯提取物低于SC-CO2提取物的萃取效率,主要是由于提取物中含有大量的植物蜡。本研究为超临界二氧化碳技术在萃取芸香活性成分方面的提供技术参考。     

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.     

Formation of edulinine and furoquinoline alkaloids from quinoline derivatives by cell suspension cultures of Ruta graveolens

The formation of furoquinoline alkaloids and of edulinine, elaborated by cell suspension cultures of Ruta graveolens, was found to occur by way of 4-hydroxy-2-quinolone. Other substrates transformed to furoquinolines included 4-hydroxy- and 4-methoxy-3-(3-methyl-2-butenyl)-2-quinolone, known earlier as natural precursors in studies with whole plants. Involvement of dictamnine as a natural precursor of 8-methoxydictamnine (γ-fagarine) and skimmianine was proved using ¹⁴C-labelled compounds. Edulinine in the cell suspensions was formed from such substrates as 4-hydroxy-N-methyl-2-quinolone, 4-hydroxy-3-(3-methyl-2-butenyl)-N-methyl-2-quinolone and its 4- methyl ether; this is probably the natural biosynthetic sequence. Changes in alkaloid yields were noted upon prolonged subculturing.     

Specific accumulation and revised structures of acridone alkaloid glucosides in the tips of transformed roots of Ruta graveolens

The root tips of Ruta graveolens (common rue) show strong autofluorescence of acridone alkaloids, which are characteristic secondary metabolites of this plant. To study the specific distribution and accumulation of acridone alkaloids in various root segments of Ruta graveolens, root material was harvested from genetically transformed root cultures and extracts were investigated by chromatographic techniques and HPLC-(1)H NMR spectroscopy. The cells of the elongation and differentiation zones contained acridone glucosides and large amounts of acridone alkaloids, mainly rutacridone. Gravacridondiol glucoside was identified as the dominant secondary compound of the root tips and its structure revised by means of spectroscopic methods. In addition, minor acridones, including the structurally revised gravacridontriol glucoside and unknown natural products, were found in the root tip.     

不同浓度胆汁酸盐对人肝胆管癌细胞凋亡的影响

目的:探讨不同浓度胆汁酸盐对人肝胆管癌细胞RBE凋亡的影响。方法:采用0、100μM、500μM、1 m M胆汁酸盐作用于人肝胆管癌细胞后,采用流式细胞术检测细胞的凋亡率,Western-blot法检测细胞Bax、Bcl-2蛋白的表达。结果:胆汁酸盐浓度为0、100μM、500μM、1 m M时,人胆管癌细胞的凋亡率分别为(0.7±0.12)%、(0.9±0.15)%、(1.4±0.17)%、(4.8±0.14)%,以1 m M胆汁酸盐所致人胆管癌细胞的凋亡最明显,Bcl-2蛋白表达量逐渐减少,Bax表达量逐渐增多,以1 m M胆汁酸盐时作用最明显,差异具有统计学意义(P0.05)。1 m M胆汁酸盐处理的人肝胆管癌细胞的形态由原来的梭形变成圆形,细胞核固缩、碎裂。结论:胆汁酸盐可以以浓度依赖性的方式导致人胆管癌细胞凋亡,以1 m M胆汁酸盐的作用最明显。     

The Role of Copper Oxide Nanomaterials on Ruta graveolens Physiological Response,and IRT1 and CAT Gene Expression

Background

Copper oxide nanomaterials’ (NMs) are important for the critical roles of Cu as a micronutrient that itsimproper concentration could cause toxicity or deficiency in plant. The Nano form of CuO could amplify the effectsdue to special characteristic of nano materials.

Method

Treatments of 0.1, 0.5, and 2.5 μM and NM of copper with three replications were applied to plants underhydroponic conditions. Physiological parameters and expression of IRT1 and CAT genes were investigated.

Results

Copper absorption decreased according to MMs-CuO ? NMs-CuO ?? CuSO4 pattern. The positive effectsof MMs-CuO on plant copper content were higher than those of nanomaterials and CuSO4. MMs-CuO effect wasmore significant on plant biomass increase compared to the control. Rue plant needed lower amounts of copper forbetter plant growth. The treatments increased protein and carotenoids content in leaves compared with control.Changes in total chlorophyll content under three copper forms were very low and were only increased in leaves at0.1 μM CuSO4. The NMs-CuO and MMs-CuO similarly reduced leaves’ Cu, MDA and ROS contents, and SODactivities. CAT enzyme activity had a similar pattern in three copper forms. CAT enzyme activity was only inducedunder the lowest level of three forms, while at other levels of Cu, it was reduced. NMs-CuO had a more negativeeffect on IRT1 relative gene expression in root compared with other iron forms. The IRT1 relative gene expressionin shoots was positively affected under 2.5 μM CuSO4, 0.5 μM MMs-CuO, and 0.1 and 2.5 μM NMs CuOtreatments.

Conclusion

The effect of micro- and nano-CuO on physiology and gene expression mechanisms in rue plants is shown to be does-dependent.

     

Effects of Ruta graveolens leaves on soil characteristics and on seed germination and early seedling growth of four crop species

Effects of rue (Ruta graveolens) leaves on soil characteristics and on germination and seedling growth of four crop species (radish, zucchini, cauliflower and tomato) were investigated. Soil not previously associated with rue was mulched and amended with its fresh leaves. The objectives of the present study were to determine: (i) the changes in soil chemical characteristics after addition of rue leaves, (ii) the growth responses in soils treated with R. graveolens leaves, and (iii) whether the soil chemistry changes affect plant growth. Results indicate that soil incorporated with rue leaves had higher values of water‐soluble phenolics, electrical conductivity and nitrate, and lower pH values compared to untreated soil. Seed germination of radish and tomato was suppressed in covered and amended soils compared to control soil. Seedling development for all the species was suppressed in incorporated and amended soil, compared to the rue‐free soil. Correlations between soil chemical characteristics, germination and seedling growth of plants are also discussed.     

Changes in Fatty Acid Composition of Chromohalobacter israelensis with Varying Salt Concentrations

The adaptation of fatty acid composition of Chromohalobacter israelensis, a euryhalophilic bacterium, grown at different salt concentrations was studied. C. israelensis tolerated NaCl up to concentrations of 20% (w/v) and showed optimal growth at 7% (w/v). Major fatty acids of this bacterium were palmitic acid (16:0), stearic acid (18:0), palmetoleic acid (16:1cis9), and cis-vaccenic acid (18:111). The salt concentration strongly influenced the fatty acid composition. In the presence of sub-optimal salt concentrations, the degree of saturation decreased, suggesting the importance of salt in maintaining the osmotic balance of the cell with its environment.     

Abscisic Acid Reduces Leaf Abscission and Increases Salt Tolerance in Citrus Plants

This paper describes the physiological effects of abscisic acid (ABA) and 100 mM NaCl on citrus plants. Water potential, leaf abscission, ethylene production, photosynthetic rate, stomatal conductance, and chloride accumulation in roots and leaves were measured in plants of Salustiana scion [Citrus sinensis (L) Osbeck] grafted onto Carrizo citrange (Citrus sinensis [L.] Osbeck × Poncirus trifoliata [L.] Raf) rootstock. Plants under salt stress accumulated high amounts of chloride, increased ethylene production, and induced leaf abscission. Stomatal conductance and photosynthetic rates rapidly dropped after salinization. The addition of 10 mM ABA to the nutrient solution 10 days before the exposure to salt stress reduced ethylene release and leaf abscission. These effects were probably due to a decrease in the accumulation of toxic Cl- ions in leaves. In non-salinized plants, ABA reduced stomatal conductance and CO2 assimilation, whereas in salinized plants the treatment slightly increased these two parameters. The results suggest a protective role for ABA in citrus under salinity.