Schisandra henryi C. B. Clarke in vitro cultures: a promising tool for the production of lignans and phenolic compounds

Plant Cell, Tissue and Organ Culture (PCTOC) - We initiated and optimized in vitro culture conditions of the endemic Chinese plant species—Schisandra henryi C. B. Clarke. Different types of...     

Generation of DNA-free Escherichia coli cells by 2-aminopurine requires mismatch repair and nonmethylated DNA

Undirected mismatch repair initiated by the incorporation of the base analog 2-aminopurine kills DNA-methylation-deficient Escherichia coli dam cells by DNA double-strand breakage. Subsequently, the chromosomal DNA is totally degraded, resulting in DNA-free cells.     

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).     

Endogenous production of specific flavonoids and verbascoside in agar and agitated microshoot cultures of Scutellaria lateriflora L. and biotransformation potential

Plant Cell, Tissue and Organ Culture (PCTOC) - Methanolic extracts of microshoots from agar cultures and of microshoots and media from agitated cultures of Scutellaria lateriflora grown on...     

Agitated shoot cultures of <Emphasis Type="Italic">Aronia arbutifolia</Emphasis> and <Emphasis Type="Italic">Aronia</Emphasis> × <Emphasis Type="Italic">prunifolia</Emphasis>: biotechnological studies on the accumulation of phenolic compounds and biotransformation capability

In methanolic extracts of the biomass from agitated cultures of Aronia arbutifolia and Aronia?×?prunifolia grown on four variants of the Murashige and Skoog (MS) medium, with different concentrations of plant growth regulators (PGRs): BA and NAA (0.5–3.0 mg/l), the quantities of phenolic acids (19 compounds) and flavonoids (11 compounds) were estimated using the LC-DAD method. The amounts of individual metabolites and total contents were dependent on the concentration of PGRs in MS medium variant. The maximum total amounts of phenolic acids and flavonoids reached 360.80 and 65.26 mg/100 g DW, and 659.51 and 78.34 mg/100 g DW for A. arbutifolia and A. × prunifolia, respectively. The main metabolites in the biomass of both plants were chlorogenic acid, rosmarinic acid and quercitrin (max. 175.94, 147.98 and 41.14 mg/100 g DW, and 260.34, 225.26 and 78.34 mg/100 g DW, respectively). The cells of both plants convert the exogenously supplied hydroquinone into its β-D-glucoside—arbutin. The maximal total content of the product accumulated in the biomass and media reached 83.55 and 73.62 mg/g DW. The obtained results demonstrated for the first time a high biosynthetic potential of agitated cultures of both plants.     

Improved production of dibenzocyclooctadiene lignans in the elicited microshoot cultures of Schisandra chinensis (Chinese magnolia vine)

Dibenzocyclooctadiene lignans are a specific group of secondary metabolites that occur solely in Schisandra chinensis. The aim of the presented work was to boost the accumulation of lignans in the agitated microshoot cultures of S. chinensis, using different elicitation schemes. The experiments included testing of various concentrations and supplementation times of cadmium chloride (CdCl₂), chitosan (Ch), yeast extract (YeE), methyl jasmonate (MeJa), and permeabilizing agent—dimethylsulfoxide (DMSO). After 30 days, the microshoots were harvested and evaluated for growth parameters and lignan content by LC-DAD method. The analyses showed enhanced production of lignans in the elicited S. chinensis microshoots, whereas the respective media samples contained only trace amounts of the examined compounds (< 5 mg/l). Elicitation with CdCl₂ caused up to 2-fold increase in the total lignan content (max. ca. 730 mg/100 g DW after the addition of 1000 μM CdCl₂ on the tenth day). Experiments with chitosan resulted in up to 1.35-fold increase in lignan concentration (max. ca. 500 mg/100 g DW) after the supplementation with 50 mg/l on the first day and 200 mg/l on the tenth day. High improvement of lignan production was also recorded after YeE elicitation. After the elicitation with 5000 mg/l of YeE on the first day of the growth period, and with 1000 and 3000 mg/l on the 20th day, the lignan production increased to the same degree—about 1.8-fold. The supplementation with 1000 mg/l YeE on the 20th day of the growth cycle was chosen as the optimal elicitation scheme, for the microshoot cultures maintained in Plantform temporary immersion system—the total content of the estimated lignans was equal to 831.6 mg/100 g DW.

     

High production of bioactive depsides in shoot and callus cultures of <Emphasis Type="Italic">Aronia arbutifolia</Emphasis> and <Emphasis Type="Italic">Aronia</Emphasis> × <Emphasis Type="Italic">prunifolia</Emphasis>

Methanolic extracts from calluses and shoots of Aronia arbutifolia and Aronia × prunifolia cultivated in vitro were quantitatively analysed for phenolic acids by DAD-HPLC. The cultures were grown on ten variants of Murashige–Skoog medium variants enriched with various concentrations of growth regulators (GRs), BA and NAA, in the concentration range 0.1–3.0 mg/L. The analysed extracts were confirmed to contain from four to six compounds (depsides—chlorogenic acid, neochlorogenic acid, and rosmarinic acid, and also protocatechuic acid, p-hydroxybenzoic acid, and 3,4-dihydroxyphenylacetic acid). The total amounts of the metabolites varied considerably, depending on the amounts of the GRs in the tested medium variants, and increased in the callus and shoot extracts, respectively, up to 1.7 and 3.2 times (A. arbutifolia), and 2.2 and 2.7 times (A. × prunifolia). Maximum total amounts were confirmed in shoot extracts of both plants (approx. 200 and 600 mg/100 g DW, respectively). The main compounds in A. arbutifolia cultures were the depsides—chlorogenic acid, rosmarinic acid, and neochlorogenic acid (max. 91.94, 77.03, 32.57 mg/100 g DW, respectively). The same depsides dominated quantitatively in the cultures of A. × prunifolia (max. 131.82, 206.62 and 257.39 mg/100 g DW, respectively).     

Biotransformation of hydroquinone to arbutin in plant <Emphasis Type="Italic">in vitro</Emphasis> cultures — preliminary results

Cells from Echinacea purpurea (L.) Moench. (Asteraceae), Exacum affine Balf. f. (Gentianaceae), Melittis melissophyllum L. (Lamiaceae), Ruta graveolens L. and Ruta graveolens ssp. divaricata (Tenore) Gams. (Rutaceae) agitating cultures perform a biotransformation reaction on exogenously supplied hydroquinone into its β-D-glucoside — arbutin, product with valuable medicinal and cosmetic properties. The maximum content of arbutin (determined by HPLC) in the biomass from investigated cultures is 4.01; 3.44; 1.79; 2.48 and 5.07 g/100 g d.w., respectively. Nothing but Ammi majus L. (Apiaceae) cultures contain trace amounts of the product. Arbutin is accumulated in cells; it is occasionally found in media only in vestigial amounts. In most of the investigated cultures the efficiency of the biotransformation process is about 60 %.     

Cytochrome oxidase deficiency protects Escherichia coli from cell death but not from filamentation due to thymine deficiency or DNA polymerase inactivation

Temperature-sensitive DNA polymerase mutants (dnaE) are protected from cell death on incubation at nonpermissive temperature by mutation in the cydA gene controlling cytochrome bd oxidase. Protection is observed in complex (Luria-Bertani [LB]) medium but not on minimal medium. The cydA mutation protects a thymine-deficient strain from death in the absence of thymine on LB but not on minimal medium. Both dnaE and Deltathy mutants filament under nonpermissive conditions. Filamentation per se is not the cause of cell death, because the dnaE cydA double mutant forms long filaments after 24 h of incubation in LB medium at nonpermissive temperature. These filaments have multiply dispersed nucleoids and produce colonies on return to permissive conditions. The protective effect of a deficiency of cydA at high temperature is itself suppressed by overexpression of cytochrome bo3, indicating that the phenomenon is related to energy metabolism rather than to a specific effect of the cydA protein. We propose that filamentation and cell death resulting from thymine deprivation or slowing of DNA synthesis are not sequential events but occur in response to the same or a similar signal which is modulated in complex medium by cytochrome bd oxidase. The events which follow inhibition of replication fork progression due to either polymerase inactivation, thymine deprivation, or hydroxyurea inhibition differ in detail from those following actual DNA damage.