How Do Different Watering Regimes Affect the Growth,Chlorophyll Fluorescence,Phytohormone, and Phenolic Acid Content of Greenhouse-Grown Ceratotheca triloba?

We evaluated the effect of different watering regimes on the growth, chlorophyll fluorescence, phytohormones, and phenolic acids in Ceratotheca triloba (Bernh.) Hook.f., a commonly consumed African indigenous leafy vegetable. The study was conducted in the greenhouse under different watering regimes [seven (daily); three (thrice); two (twice); one (once) day(s) per week] for a period of 2 and 4-months. In each pot (7.5 cm diameter; 150 ml volume), 50 ml of water was applied per treatment. At the end of the experiment, plant growth, chlorophyll fluorescence, phytohormones, and phenolic acids were determined. A decrease in water availability resulted in a consistent decline in plant growth after a 4-month growth period. The severity of reduced water availability was more noticeable in plants watered once a week with a 1.4-fold reduction in growth and quantum efficiency of PSII (Fv/Fm) value of 0.80. The significant decline in growth and chlorophyll fluorescence was probably due to the increased production of abscisic acid (ABA) and cytokinin (CK) content together with the detected phytohormones in plants with restricted water supply. Furthermore, plants watered once a week had a trade-off between growth and phenolic acid production, with significantly higher (threefolds) concentrations of vanillic, ferulic, caffeic, and 4-coumaric acids in 4-month-old plants. Even though C. triloba grew best in well-watered soil, the plant had the potential to adapt and survive in soils with limited water supply for longer periods of growth. These findings suggest that regulation of phytohormones and phenolic acids played an important role in improving the growth of C. triloba under limited water conditions.

     

In vitro pharmacological evaluation and phenolic content of ten South African medicinal plants used as anthelmintics

Helminth infection is regarded as one of the neglected tropical diseases (NTDs). Although the disease is common in rural areas, information on the pharmacology of South African medicinal plants used against this disease is limited. We investigated the efficacy of ten South African medicinal plants against Caenorhabditis elegans. Because of the increased susceptibility of a host to microbial infections and other inflammatory responses associated with helminth infections, the antimicrobial and cyclooxygenase (COX) inhibitory activities of the plants were also investigated. Phenolics including flavonoids, condensed tannins and gallotannins have been linked to many pharmacological activities. Thus, the phenolic content of the plant extracts were quantitatively evaluated. In the three bioassays, organic solvent extracts from Cyathea dregei (roots and leaves), Felicia erigeroides (leaves and stems), Hypoxis colchicifolia (leaves) and Senna petersiana (leaves) exhibited noteworthy pharmacological activities while Acokanthera oppositifolia (leaves) had good COX inhibitory activity. The concentration of phenolics ranged from 56.7 to 1.7 mg GAE/g dry matter in Ocimum basilicum and Cotyledon orbiculata var. dactylopsis, respectively. Flavonoids, condensed tannin and gallotannin content also varied greatly among the plant extracts investigated.     

13C heteronuclear NMR studies of the interaction of cultured neurons and astrocytes and aluminum blockade of the preferential release of citrate from astrocytes

Citrate has been identified as a major tricarboxylic acid (TCA) cycle constituent preferentially released by astrocytes. We undertook the present study to examine further the nature of metabolic compartmentation in central nervous system tissues using ¹³C-labeled glucose and to provide new information on the influence of aluminum on the metabolic interaction between neurons and astrocytes. Metabolites released into the culture medium from astrocytes and neuron-astrocyte coculture, as well as the perchloric acid extracts of the cells were analyzed using 2D ¹H and ¹³C NMR spectroscopy. Astrocytes released citrate into the culture medium and the released citrate was consumed by neurons in coculture. Citrate release by astrocytes was blocked in the presence of aluminum, with progressive accumulation of citrate within the cells. We propose citrate supply is a more efficient energy source than lactate for neurons to produce ATP, especially in the hypoglycemic state on account of it being a direct component of the TCA cycle. Astrocytes may be the cellular compartment for aluminum accumulation as a citrate complex in the brain.     

Regulation of growth,nutritive, phytochemical and antioxidant potential of cultivated <Emphasis Type="Italic">Drimiopsis maculata</Emphasis> in response to biostimulant (vermicompost leachate,VCL) application

The effect of vermicompost leachate (VCL, low-cost biostimulant) on the growth, elemental (macro and micro-nutrients) and phytochemical content as well as the antioxidant potential of Drimiopsis maculata was evaluated. Three dilutions (1:5; 1:10 and 1:20) of VCL were tested and the cultivation lasted for 3 months. In addition to the recorded growth parameters, dried and ground plant materials (leaves and bulbs) were evaluated for nutrients, phenolic acids and antioxidant capacity. Vermicompost leachate application enhanced the growth of D. maculata, particularly, the leaves (VCL 1:10) and bulbs (VCL 1:20) which were significantly bigger than the controls. Apart from the concentration of phosphorus which was significantly lower in the leaves of VCL (1:20)-treated plants, the quantity of all four macro-nutrients analysed were similar with and without VCL. Similar observations were also demonstrated in the majority of quantified micro-nutrients in D. maculata. Relative to the control, VCL-treated plants had higher concentrations of the 10 phenolic acids quantified in the leaves. However, the majority of the quantified phenolic acids were not significantly enhanced in bulbs. Antioxidant activity of D. maculata extracts was generally higher in leaves than in the bulbs. The leaf extract from VCL (1:10 and 1:20)-treated plants exhibited lower oxygen radical absorbance capacity (ORAC) when compared to the control. However, bulbs from VCL (1:5) treatment had significantly higher ORAC than the control. From a conservational perspective, the current findings provided insight on viable approaches useful for mitigating challenges associated with over-harvesting of highly utilized but slow-growing plant species.     

Seaweed-Derived Biostimulant (Kelpak<Superscript>®</Superscript>) Influences Endogenous Cytokinins and Bioactive Compounds in Hydroponically Grown <Emphasis Type="Italic">Eucomis autumnalis</Emphasis>

The effect of a seaweed-derived biostimulant (Kelpak^® at 1, 2.5 and 5 % dilution; v/v) on the growth, endogenous cytokinin (CK) and phytochemical content in Eucomis autumnalis (Mill.) Chitt. under hydroponic conditions was evaluated. After 4 months, the stimulatory effect of Kelpak^® treatments was more noticeable in the underground organs than in the aerial organs. Total endogenous CK was also higher in plants treated with Kelpak^® (c.a. 1000–1200 pmol g^?1 DW) compared to control plants (860 pmol g^?1 DW). Isoprenoid CKs (which mainly accumulated in the aerial organs) were more dominant than aromatic-type CKs across all the treatments. A total of 11 bioactive chemicals (8 phenolic acids and 3 flavonoids) and eucomic acid known for their diverse biological activities were quantified in the samples. The most abundant compound was p-coumaric acid (6.5 µg g^?1 DW) and it was approximately sevenfold higher in 2.5 % Kelpak^®-treated plants than in the control. It was also noteworthy that syringic acid only occurred in the underground organs of 5 % Kelpak^®-treated plants. Eucomic acid which is a major bioactive compound in E. autumnalis was significantly enhanced in Kelpak^® treatments, and the leaves accounted for more than 70 % of the overall content. Thus, Kelpak^® elicited a significant influence on the growth, endogenous CK and phytochemical content in E. autumnalis. These findings provide additional evidence of the enormous potential of Kelpak^® as a useful biostimulant with practical applications in various agricultural endeavours.     

Physiological effects of a novel aromatic cytokinin analogue in micropropagated Aloe arborescens and Harpagophytum procumbens

Globally, there is a continuous effort geared toward improving micropropagation protocols with much emphasis on the type of cytokinins (CKs). We investigated the effect of meta-topolin tetrahydropyran-2-yl [mTTHP—a novel derivative of the aromatic cytokinin meta-topolin (mT)] on shoot proliferation, photosynthetic pigment content, phytochemicals and antioxidant activity of two widely used medicinal plants, Aloe arborescens and Harpagophytum procumbens. In terms of shoot proliferation, besides mTTHP and mT (at equimolar level) showing comparable effects, both topolins were significantly better than the control and benzyladenine riboside (BAR) in micropropagated A. arborescens. In H. procumbens, mT-treated cultures were the most responsive treatment at 2.5 μM when compared to the control. At 5.0 μM concentration, mTTHP and meta-topolin riboside (mTR) demonstrated a comparable effect on shoot proliferation. To a certain extent (particularly at low concentrations), mTTHP had a better rooting stimulatory effect when compared to the other CKs in both investigated species. In micropropagated A. arborescens, 2.5 μM mTTHP showed the best antioxidant activity (ferric reducing power) which was significantly higher than the control and all BAR-treated plants. Although 2.5 μM mTTHP exhibited a significant antioxidant activity (in β-carotene based assay) when compared to mTR at equimolar level in H. procumbens, it was not significantly different from the treatment with 2.5 μM mT and the control. As evidenced in the current study, the efficacy of the novel cytokinin may be species-specific and beneficial for few physiological parameters. It is conceivable that mTTHP is another viable alternative topolin with the extra advantage of inducing rooting at a low concentration.     

Shoot and root proliferation in ‘Williams’ banana: are the topolins better cytokinins?

The effects of five topolins (meta-Topolin?=?mT; meta-Topolin riboside?=?mTR; meta-Methoxy topolin?=?MemT; meta-Methoxy topolin riboside?=?MemTR and meta-Methoxy topolin 9-tetrahydropyran-2-yl?=?MemTTHP) on shoot and root regeneration of micropropagated ??Williams?? bananas were compared to benzyladenine (BA). Sterile shoot-tip explants were cultured on modified Murashige and Skoog (MS) media containing 10, 20 or 30???M of the above cytokinins (CKs) for 42 days. Using shoot regenerated from optimum CK concentration, rooting experiments involving the use of indole-3-acetic acid, indole-3-butyric acid, naphthalene acetic acid, smoke?Cwater (SW) and karrikinolide (KAR₁) were conducted. Apart from 10???M BA and 30???M MemTTHP treatments, the number of shoots produced in all the CK treatments were significantly higher than the control. In addition, 30???M mT resulted in the highest number of shoots (7.3?±?1.0). Unlike other CK treatments requiring higher concentrations, optimum mean shoot number per explant rate was attained at the lowest concentration in MemT and MemTTHP (10???M) treatments. The use of 10???M MemTTHP had the least root inhibitory effect during the shoot proliferation phase. In terms of abnormality index, mTR-regenerated plantlets were of the best quality across all the CKs tested. In mT- and BA-derived shoots, SW and KAR₁ significantly increased the number and length of roots compared to the control. Overall, when compared to BA, the use of topolin demonstrated higher mean shoot number per explant (MemT and MemTTHP) at lowest CK concentrations and the ease of rooting during the shoot proliferation phase (MemTTHP). During the rooting phase, topolin treatments produced more off-shoots than BA-treated ones. The current finding is a further demonstration of the increasing importance of topolins in micropropagation.     

The role of meta-topolins on the photosynthetic pigment profiles and foliar structures of micropropagated 'Williams' bananas

The effect of five topolins (meta-Topolin=mT; meta-Topolin riboside=mTR; meta-Methoxy topolin=MemT; meta-Methoxy topolin riboside=MemTR and 6-(meta-methoxy)-9-(tetrahydropyran-2-yl)-topolin=MemTTHP) on the photosynthetic pigments and leaf structures of micropropagated 'Williams' bananas was compared with the commonly used benzyladenine (BA). Surface-decontaminated explants were cultured for 70 d on modified Murashige and Skoog (MS) basal medium and supplemented with 10, 20 or 30μM cytokinins (CKs). At 10 d intervals, the photosynthetic pigments were quantified via spectrophotometric methods for 7 cycles. Generally, the maximum pigment content was attained between 40 and 50 d. The control plantlets had the highest pigment content (1150μg/g FW). Among the CKs, 10μM MemTTHP generally had the best pigment stimulatory effect at the same period. After 40 d, scanning electron microscopy (SEM) of the foliar surface showed that the stomata density was highest in 10μM MemTTHP-treated and lowest in 10μM MemTR-treated plantlets. The stomatal structure and pore area also varied with the type and concentration of CK added. Generally, prolonging culture duration as well as increasing CK concentrations reduced the pigment content. However, the drastic breakdown in chlorophyll pigments beyond 50 d was slightly inhibited by the presence of mT, mTR, MemTTHP and BA compared to the control. The CK-treated plantlets at equimolar concentration had comparable chlorophyll a/b and total chlorophyll/carotenoid ratios after 10 d; probably as an adaptive measure. At the end of the current study, 10μM mT and mTR plantlets remained green as reflected by the higher total chlorophyll/carotenoid ratio as well as by the visual observations. A well-developed photosynthetic apparatus enhances the survival of in vitro plantlets during the acclimatization stage. Current findings provide some insight into the role of meta-topolins on photosynthetic parameters in vitro, which inevitably partly contributed to the better acclimatization capability of meta-topolin-regenerants.