Effect of Light Quality and Media Components on Shoot Growth, Rutin, and Quercetin Production from Common Buckwheat.

Common buckwheat (Fagopyrum esculentum Moench) seeds are important nutritious grains that are widely spread in several human food products and livestock feed. Their health benefits are mainly due to their bioactive phenolic compounds, especially rutin and quercetin, which have a positive impact on heart health, weight loss, and diabetes management. In this study, we evaluated different media and light treatments for the in vitro cultures of common buckwheat (CB) in order to find the most optimum one producing the highest yield with the highest purity of these compounds. The subcultured treated samples included in this study were shoots, leaves, stems, hairy roots, and calli. From the several treated samples and under different light stress conditions, the best production was achieved by growing the shoots of common buckwheat in hormone-free media containing activated charcoal and exposing to blue light, attaining 4.3 mg and 7.0 mg/g of extracts of rutin and quercetin, respectively, compared to 3.7 mg of rutin/g of extract and traces of quercetin in the seeds of CB. Continuous multiplication of CB shoots in the media containing charcoal and different concentrations of kinetin produced an extract with 161 mg/g of rutin and 26 mg/g of quercetin with an almost 20-fold increase in rutin content. The rutin content under these conditions reached up to 16% w/w of the extract. The hairy root cultures of the leaves exposed to red light showed a significantly high yield of quercetin attaining 10 mg/g of extract. Large-scale production of CB shootlets under the best conditions were carried out, which enabled the isolation of pure quercetin and rutin using a simple chromatographic procedure. The identity and purity of the isolated compounds were confirmed through NMR and HPLC analyses.

Impact of Antioxidants on in vitro Rooting and Acclimatization of Two Egyptian Dry Date Palm Cultivars.

BACKGROUND AND OBJECTIVES: Date palm (Phoenix dactylifera L.) is propagated vegetatively via offshoots, which is limited by either the offshoots numbers produced from a superior selected plant, or the occurrence of these offshoots only during the juvenile phase of the date palm life cycle. As a result, the in vitro propagation could be considered an alternative technique for large scale propagation of date palm. Obtaining well-developed root system is considered the most important step in establishment of reliable protocol for successful production of date palm and subsequently successful acclimatization of the in vitro derived plants. The aim of this study is to obtain a well-developed root system through using different antioxidants, with detecting the similarity between the in vitro derived plants and the mother plants using RAPD, long RAPD and ISSR techniques. MATERIALS AND METHODS: Individual plantlets obtained from maturation of somatic embryos in vitro of about 5-7 cm in length with 2-3 leaves were used as plant material. Plantlets were cultured on half strength MS liquid medium supplemented with 0.5 mg L-1 thiamine-HCl+2.0 mg L-1 glycine+0.1 mg L-1 biotin+40 g L-1 sucrose+ 0.1mg L-1 NAA with different concentrations from either AgNO3 or citric or ascorbic acids (0.0, 0.5, 1, 2 mg L-1). Growth development, root number and root length (cm) were evaluated at the end of the second subculture (12 weeks). Data were reported as Mean±Standard deviation (SD). Data were subjected to one way-analysis of variance (p<0.05). Results were processed by Excel (2010). RESULTS: Among the different antioxidants with different concentrations used, generally it was found that 2 mg L-1 of each agent gave the highest values of growth development, roots number and roots length. However, using 2 mg L-1 AgNO3 gave the best results with all parameters. Regarding the response of date palm cultivar, it was remarkable that Bartamoda showed relatively better results than Sakkoty cultivar. According to PCR reactions, the results of RAPD, long RAPD and ISSR profile of tissue culture-derived plantlets grown on a medium supplemented with 2 mg L-1 AgNO3 obviously revealed high similarity to mother plants. CONCLUSION: It could be concluded that using 2 mg L-1 AgNO3 gave the best results for growth development, root numbers and length of the two cultivars but Bartamoda showed relatively better results than Sakkoty cultivar. The tissue culture-derived plantlets on this medium (2 mg L-1 AgNO3) revealed high similarity to mother plant as a result to RAPD, long RAPD and ISSR profiles.

Determination of lignans, phenolic acids and antioxidant capacity in transformed hairy root culture of Linum usitatissimum.

Hairy root culture is a promising alternative method for the production of secondary metabolites. In this study, transformed root of Linum usitatissimum was established using Agrobacterium rhizogenes A4 strain from root cultures for lignans, phenolic acids and antioxidant capacity determination. Total lignin content (secoisolariciresinol diglucoside, secoisolariciresinol and matairesinol) was 55.5% higher in transformed root cultures than in the non-transformed root culture. Secoisolariciresinol was detected in higher concentration (2.107 µmol/g DM) in the transformed root culture than non-transformed culture (1.099 µmol/g DM). Secoisolariciresinol diglucoside and matairesinol were exclusively detected in the transformed root culture, but were not found in the non-transformed root culture. The overall production of phenolic acids in transformed roots was approximately 3.5 times higher than that of the corresponding non-transformed culture. Free radical scavenging DPPH˙ and ABTS˙+ assays showed 2.9-fold and 1.76-fold higher anti-oxidant activity in transformed root culture as compared to non-transformed.

Impact of Zeatin and Thidiazuron on Phenols and Flavonoids Accumulation in Callus Cultures of Gardenia (Gardenia jasminoides).

BACKGROUND AND OBJECTIVE: Gardenia (Gardenia jasminoides) has many pharmacological actions such as anti-inflammatory, antioxidant and fibrolytic activities and cytotoxic effects, etc. This study was conducted to recognize the effect of zeatin and thidiazuron (TDZ) on callus proliferation, total phenolic content, total flavonoids and DPPH scavenging activity of gardenia callus cultures. MATERIALS AND METHODS: Calli were cultured on Murashige and Skoog (MS) medium supplement with different concentrations (2, 4 or 6 mg L-1) of zeatin or TDZ individually as well as combination of 2 mg L-1 zeatin+4 mg L-1 TDZ. Cultures contained 4 mg L-1 TDZ gave the highest callus fresh weight followed by those contained 2 mg L-1 zeatin then that cultured on 4 mg L-1 zeatin. Data reported as Mean±Standard Deviation (SD). Data were subjected to one-way analysis of variance (p< 0.05). Results were processed by Excel (2010) and SPSS Version 17.0. RESULTS: It was found that callus growing on medium supplemented with 4 mg L-1 zeatin gave the maximum value (14.93%) of yield extract. Callus cultured on 4 mg L-1 zeatin recorded the maximum total phenol (268.33 mg GAE/100 g FW of callus) and total flavonoids (2703.33 µg QE/100 g FW of callus) accumulation. The antioxidant activity of each extract was determined through DPPH radical scavenging activity. Callus cultured on 4 mg L-1 TDZ showed the highest antioxidant activity then those cultured on 4 mg L-1 zeatin. The HPLC analysis for phenolic acids showed that chlorogenic acid, rosmarinic acid and cinnamic reached their highest contents with callus cultured on 4 mg L-1 TDZ (123.24, 322.14 and 278.22 µg g-1, respectively). Regarding flavonoids and using HPLC analysis, rutin, apigenin-7-glucoside and kaempferol were detected. Callus cultured with 4 mg L-1 TDZ gave the highest rutin and kaempferol contents (287.76 and 10.38 µg g-1, respectively). However, apigenin-7-glucoside was detected with high content (129.86 µg g-1) in callus culture with 4 mg L-1 Zeatin. CONCLUSION: The HPLC analysis recommended that TDZ is more effective in accumulation of individual phenolic and flavonoid than Zeatin. The present study provided a useful system for further study on in vitro culture of G. jasminoides as alternative and new source for important secondary products.

Pancreatic injury in patients with septic shock: A literature review.

Sepsis and septic shock are life threatening condition associated with high mortality rate in critically-ill patients. This high mortality is mainly related to the inadequacy between oxygen delivery and cellular demand leading to the onset of multiorgan dysfunction. Whether this multiorgan failure affect the pancreas is not fully investigated. In fact, pancreatic injury may occur because of ischemia, overwhelming inflammatory response, oxidative stress, cellular apoptosis and/or metabolic derangement. Increased serum amylase and/or lipase levels are common in patients with septic shock. However, imaging test rarely reveal significant pancreatic damage. Whether pancreatic dysfunction does affect the prognosis of patients with septic shock or not is still a matter of debate. In fact, only few studies with limited sample size assessed the clinical relevance of the pancreatic injury in this group of patients. In this review, we aimed to describe the epidemiology and the physiopathology of pancreatic injury in septic shock patients, to clarify whether it requires specific management and to assess its prognostic value. Our main finding is that pancreatic injury does not significantly affect the outcome in septic shock patients. Hence, increased serum pancreatic enzymes without clinical features of acute pancreatitis do not require further imaging investigations and specific therapeutic intervention.