Optimizing the extract yield of bioactive compounds in Valeriana officinalis root: a D-optimal design.

It is estimated that 80% of all synthetic drugs are derived from medicinal plants, and nowadays, many synthetic drugs are derived from medicinal plants. Valeriana officinalis can treat many diseases of the nervous system. A crucial aspect of valerian extract is that it inhibits the proliferation of breast cancer cells. To optimize the yield of bioactive compounds in the V. officinalis root extraction, a response surface methodology-based D-optimal design was used. To fulfill this aim, the effects of various factors such as solvent type and concentration, mixing temperature, ultrasound time, and drying method were examined. The optimal conditions for solvent percentages, mixing temperature, ultrasound time, solvent type, and drying methods were determined to be 94.88%, 25 °C, 48.95 min, methanol, and microwave, respectively, with a desirability of 0.921. The predicted valerenic acid, total phenols, total flavonoids, and antioxidant activity in V. officinalis extract were 1.19 (mg/g DW), 8.22 (mg/g DW), 5.27 (mg/g DW), and 92.64%, respectively. In optimal conditions, the extracted amounts of valerenic acid, total phenols, total flavonoids, and antioxidant activity were 2.07 mg/g DW, 7.96 mg/g DW, 5.52 mg/g DW, and 78.68%, respectively, which were consistent with the model predicted amounts (based on 95% prediction interval). This study could be useful as a model for demonstrating the efficacy of microwave drying to maximize the biochemical content of V. officinalis, as well as the antioxidant activity of the root extracts of V. officinalis on industrial scale.

Association analysis and molecular tagging of phytochemicals in the endangered medicinal plant licorice (Glycyrrhiza glabra L.).

Licorice (Glycyrrhiza glabra L.) is a medicinal plant species valued in many countries in Asia and Europe for its phytochemical characteristics. Licorice biodiversity is becoming threatened nowadays in Iran due to increasing demand and a drastic decline of its natural habitats. Therefore, licorice domestication would be necessary in the near future, and molecular breeding would help to introduce genotypes suitable for cultivation. The present study was carried out with 170 individual licorice plants sampled in the wild in 59 localizations in 21 provinces of Iran. The association of 436 polymorphic AFLP markers, produced by 15 primer combinations (EcoRI/MseI), with six phenotypic phytochemical traits was studied. The AMOVA analysis show gene diversity among and within localizations. The population structure analysis identified two main sub-populations with significant genetic variation. Significant associations were identified between three markers (E3/M40-4, E34/M4-12 and E12/M31-15) and glycyrrhizin concentration, and between four markers (E11/M34-12, E11/M34-15, E9/M7-29, and E9/M7-30) and phenolic compounds contents. Markers detected can be useful in the domestication of licorice as well as in breeding programs. Licorice sampled in four localizations (KBA1, KBA2, SKh2 and Fa1) were found to be superior in terms of glycyrrhizin and antioxidants content, and therefore they can be considered as elite genotypes which could be included in the domestication process.

Subject: UV-B radiation and low temperature promoted hypericin biosynthesis in adventitious root culture of Hypericum perforatum.

The hypericin is assumed as a highly demanded and key bioactive compound, which has antiviral, antimicrobial, antioxidant, and antitumor properties isolated from Hypericum perforatum. Nowadays, increasing bioactive molecules' contents through generating novel compounds is one of the major research objectives of H. perforatum biotechnology; however, this plant remains recalcitrant and unmanageable to Agrobacterium mediated transformation and genetic improvement programs. In order to overcome these challenges, many researchers have focused on this unruly herb using biotic and abiotic eliciting strategies. Therefore, two experiments were separately designed for the evaluation of two types of abiotic elicitors, aiming at increasing the productivity of hypericin in the adventitious root suspension culture of H. perforatum. The first one was accomplished to evaluate the effect of UV-B light elicitors (the exposure time of 30, 60, and 90 min) and the recovery treatment (with or without) on hypericin content while the second one was assessed the effect of various temperatures (4°C, 8°C, 16°C, and 25°C) in three different exposure times (24 h, 72 h, and 7 d). Based on the results, UV-B (60 min) treatment followed by the recovery produced 0.430 µg/g DW hypericin and was distinguished as the most effective UV-B elicitation treatment. In addition, a temperature of 4°C for a period of 72 hours is required to get the highest amount of hypericin content. These findings indicate the fact that hypericin biosynthesis is notably affected by UV-B exposure time and Low-temperature. The data also clearly elucidate further mechanisms of hypericin production in H. perforatum adventitious root culture.