Improvement of Phenols Production by Amino Acids in Callus Cultures of Verbascum thapsus L. ()
Received 18 November 2015; accepted 18 January 2016; published 21 January 2016
1. Introduction
Verbascum is a genus of about 360 species of flowering plants in the Scrophulariaceae family. They are native to Europe and Asia, with the highest species diversity in the Mediterranean and Iranian Altoranih [1] [2] . The most important species is Verbascum thapsus L. Common names include mullein, common mullein, great mullein, wooly mullein, candlewick plant, velvet plant, blanket leaf, Aaron’s rod, Jacob’s staff, hedge taper, high taper, old man’s flannel [3] .
V. thapsus is rich plant in Phenolsso, it may be used wisely as an alternative medicine, it has been used as antiseptic, demulcent, narcotic, diuretic and has anti-microbial, anti-malarial, anti-oxidant and anti-inflammatory activities [4] -[7] . An aromatic, slightly bitter tea can be made by infusing dried leaves in boiling water [8] . The flowering stems can be dipped in wax and be used as torches and to make wicks for candle [9] .
Plant phenols are secondary metabolites with diverse chemical nature and potential including: phenolic acids, flavonoids, tannins, coumarins, lignans and xanthones. Phenols are providing essential functions in the reproduction and the growth of the plants acting as defense mechanisms against pathogens, parasites, and predators [4] [10] . Plant tissue culture techniques are used as an alternative method for production and accumulation of secondary metabolites in situations when plant material is rare or difficult to acquire and when chemical synthesis of their metabolites is low or not possible [11] .
Several endeavors have been recorded for enhanced synthesis of secondary metabolites in vitro cultures of different plant species, e.g. flavonoid productionin cultured tissue of Hydrocotyle bonariensis [12] , Tropanealkaloids in Hyoscyamus niger [13] , indole alkaloid in Catharanthus roseus [14] , essential oil in Origanum vulgare L. and Calendula officinalis L. [15] [16] .
Many researchers refer that metabolic engineering seems a promising approach to improve the cells production. So this study is conducted to experience the effect of amino acids as precursor feeding on the enhancement of phenolic compound accumulation in vitro.
2. Material and Methods
2.1. Source of Plant
Common mullein plants, Verbascum thapsus L. were collected at flowering stage from Al-Sulaimania mountains, Iraq on April 2013. In vitro plantlets were established according to Turker et al. [17] . Plantlet explants were used for induction of callus using (MS) medium [18] supplemented with different concentration of auxin 2,4-D (0, 0.5, 1 and 1.5 mg/l) and cytokinin BA (0, 0.5, 1, and 1.5 mg/l). Fresh and dry weights callus were measured after 6weeksof incubation at 25˚C ± 2˚C and 16 hrs light. The best callus production was selected after 6 weeks for further work. These callus were sub cultured each 4 weeks on fresh media supplemented with 0.5 mg/L of BA, and for two months continuously to maintain callus stock. An equal fresh weight of callus about (300 mg) was cultured on same medium which used in callus maintenance. Three concentrations 50, 100 and 150 mg/l of four different sources of amino acids: Proline, Glutamine, Tryptophan and Phenylalanine were used separately as precursor feeding for accumulation of phenolic compounds such as, Coumarin, Eugenol, and Thymol.
2.2. Extraction of Plant Materials
Leaves of mother plant and callus tissue were dried at 45˚C in oven for 48 hrs, and then kept at 4˚C. A 200 mg of dried plant material was taken for phenols extraction; the aliquots were shaken in 5 ml of methanol and incubated at room temperature for overnight. Plant material was centrifuged and filtered out using Whatman No.1, and 3 ml aliquots from each filtrate were filtered again using 0.22 µm syringe filters [19] . The existence and content of Coumarin, Eugenoland Thymol of callus tissue analyzed by HPLC. The leaves of mother plant were also analyzed for comparison.
2.3. Chromatographic (HPLC) Conditions
The RP-HPLC (Sykum-German) system with C18 reversed-phase column (250 × 4.6 mm) was used to detect of phenolic compound, Coumarin, Eugenol and Thymol. Acetonitrile and water in 75:25 (v/v) ratios was chosen as the mobile phase under a column temperature of 30˚C. The detection wavelength was set at 210 nm with a flow rate of 1.4 ml/min; the auto sampler injection volume was 20 µl. Quantitative method was analyzed by external standard. All standards were obtained from Sigma-Aldrich (USA).
2.4. Statistical Analysis
All experiments were carried out in 15 replicates. The experiment results were statistically analyzed by ANOVA with Two-way Analysis of Variance test using MINITAB11 statistical program. Experiments were carried out with completely randomized block design and the differences between groups were compared using LSD at P ≤ 0.05.
3. Results and Discussion
3.1. Callus Production
Data recorded in Table 1 showed the presence of significant effects of growth regulators used on callus production from plantlet explants. The best result of callus production was recorded with 0.5 mg/l of BA done highest value of mass callus production, (3672 and 218 mg) in fresh and dry weight respectively. The combination between BA and 2,4-D caused positive significant effect on fresh and dry weight of callus. However, supple- mentation of MS media with 2,4-D alone showed a little effect on callus production. Similar results were reported for callus induction from Verbascum sinuatum L. [20] , they stated that a callus induction was induced on MS medium supplemented with different concentrations of BA and NAA, but no induction of callus was observed using NAA alone.
Callus inductions depended on kind and concentration of plant growth regulators, type of explant also played a considerable role in callus induction [21] . So the plantlet explant was selected in our study for initiation of callus according with [20] [22] , they successfully, initiated the callus tissue of V. speciosum and V. sinuatum L.
3.2. Effect of Amino Acids on Mass Growth of Callus Culture
All treatments of amino acids (Proline, Glutamine, Tryptophan and Phenylalanine), gave different mass value of callus tissue. Generally, 150 mg/L of Glutamine added to MS medium done high response of fresh and dry weight reached to (3065 and 160 mg) respectively, (Table 2). Significantly, none of amino acids tested pro- moted production of callus. The results were in agreement with Urmantsva et al. [23] , were found that of none of the amino acids tested enhanced biomass production in cell cultures of Thalictrum minus.
Table 1. Effect of 2,4-D and BA concentrations and their combinations on fresh and dry weight (mg) of callus induction on MS medium from plantlet explant of V. thapsus.
Table 2. Effect of different concentration of amino acids (mg/l) added to MS medium on callus fresh and dry weight of V. thapsus L. after 4 weeks of incubation (initial callus weight was 300 mg).
The use of amino acids as an organic source of nitrogen was not usually desired in modern media, where a proper balance between /NH4+ guaranteed the nitrogen requirement, L. glutamine was most commonly used as a nitrogen source in tissue culture [21] .
3.3. Effect of Amino Acids on Accumulation of Phenolic Compound in Callus Culture of V. thapsus
The results in Table 3 showed the low content of Coumarin (10 ppm) which achieved at mother plants, while in vitro callus tissues extract gave high significant values especially with amino acids treatments. It was noted that the addition of high concentration of Proline, Tryptophan and Phenylalanine (150 mg/l) led to produce high significant values of Coumarin (285.2, 88.2 and 146.8 ppm) respectively. Prolineat concentration of 150 mg/l successfully trigged the production of Coumarin (285.2 ppm), which was 2752% higher than mother plant. While the lowest concentration of Glutamine 50 mg/l gave the best production of Coumarin (113.2 ppm), 1032% more than mother plant.
Although Eugenol was scarcely detected (15.0 ppm) in callus culture of control treatment, (Table 4). This compound was highly produced when the callus was treated with low concentration of amino acids (50 and 100 mg/l). Treatment with Proline at 50 mg/l gave high percentage of increase; it was 290% more than mother plants, (Figure 1). On the other hand, similar values of Eugenol production (71.8, 68.0 and 74.9 ppm) were recorded in Glutamine treatments (50, 100 and 150 mg/l) respectively, with percentage of increasing ranged between (65% - 82%) more than mother plant.
The results illustrated in Table 5 indicated that addition of Tryptophan and Phenylalanine as precursors led to increase the production of Thymol. The superiority in Thymol production was attained in medium contained 150 mg/l of Tryptophan, it was (1518.8 ppm), 390% higher compared with mother plants. Supplementation with both amino acids (Proline and Glutamine) as precursors caused reduction in Thymol concentrations to percentage of 30.97%, 95.66% and 38.60% respectively, compared with the control and mother plant.
Attempts to induce the yield of the secondary product by supplying precursors or abiotic elicitors are found to be effective in many cases. Amino acids have been used as organic nitrogen source in in vitro cultures of several
Table 3. Effect of amino acid added to MS medium on accumulation of Coumarin (ppm) in callus culture of V. thapsus after 4 weeks of incubation.
Table 4. Effect of amino acid added to MS medium accumulation of Eugenol (ppm) in callus culture of V. thapsus after 4 weeks of incubation.
Table 5. Effect of amino acid added to MS medium on accumulation of Thymol (ppm) in callus culture of V. thapsus after 4 weeks of incubation.
species like sorghum [24] , alfalfa [25] , maize [26] , rice [27] and other plants to enhance somatic embryogenesis and regeneration. The aromatic amino acids Phenylalanine and Tryptophan in plants are not only essential components for protein synthesis, but also serve as precursors for a wide range of secondary metabolites that are important for plant growth [28] . Hakkim et al. [29] , found that the addition of Phenylalanine into agar medium improved in rosmarinic acid yield in Ocimum sanctum cell cultures. [30] suggests that Artimisinin production can be enhanced with the manipulation of medium by different amino acids in the callus cultured. Taha et al., [31] reported that highest value of mass cell cultures and indole alkaloids production in Catharanthus roseus were achieved with modified MS medium containing 300 mg/l of either L-glutamine for mass cell induction or L-typtophane for enhancement of total indole alkaloids. Also, Ahmed et al. [14] , described that the indole alkaloid content of callus tissue of Catharanthus roseus was increased by amino acids supplementation. The effect of Proline on Thymol production in Origanum vulgare and on Hyoscyamine and Scopolamine in callus culture of Hyoscyamus niger has been studied by [13] [15] , they were found Proline enhanced the secondary metabolites in callus tissue. Unsuccessful attempts to induce product yield may be due to our lack of knowledge concerning the timing of addition of such compounds, their uptake, and their compartmentation in relation to the enzymes involved in their utilization [32] .
Acknowledgements
This research was carried out in biotechnology research center/Al Nahrain University and funded by grants from Ministry of Higher Education and Scientific Research.
NOTES
*Corresponding author.