How does exogenously applied cytokinin type affect growth and endogenous cytokinins in micropropagated Merwilla plumbea?

Merwilla plumbea (Lindl.) Speta is a popular and highly sought after South African medicinal plant with diverse therapeutic values. Using Ultra performance liquid chromatography (UPLC), the effect of five cytokinins (CKs) [either isoprenoid = N ⁶-isopentenyladenine (iP) or aromatic = benzyladenine, meta-topolin (mT), meta-topolin riboside (mTR), and 6-(3-methoxybenzylamino)-9-tetrahydropyran-2-ylpurine] MemTTHP on growth and level of endogenous CKs during micropropagation and acclimatization stages was evaluated. Aromatic CK (mT/mTR) elicited the highest shoot proliferation (7–8 shoots per explant) during in vitro culture. Following acclimatization, iP-treated and the control plants were healthier with longer leaves, roots and higher fresh weight when compared to aromatic CKs. A total of 37 (22 isoprenoid and 15 aromatic) CK variants were quantified in both in vitro and acclimatized plants. Based on their metabolic function, these were grouped into five types including free bases, ribosides, ribotides, O- and 9-glucosides. In addition to enhancing our understanding of the hormone physiology in M. plumbea, the current findings are discussed in line with the effect of the exogenously applied CK on the observed differences in growth before and after the important stage of acclimatization. The observed dynamics in endogenous CK provide an avenue to manipulate in vitro growth and development of investigated species.     

Changes in endogenous cytokinin profiles in micropropagated <Emphasis Type="Italic">Harpagophytum procumbens</Emphasis> in relation to shoot-tip necrosis and cytokinin treatments

Changes in cytokinin (CK) profiles and their physiological implications in micropropagated Harpagophytum procumbens [(Burch.) DC. ex Meisn.] tissues in relation to shoot-tip necrosis (STN) and CK treatments were studied. Total CK content was quantified in benzyladenine (BA)-treated necrotic and normal plantlets and in plantlets treated with the CKs BA, meta-topolin (mT) and meta-topolin riboside (mTR) with and without the auxin indole-3-acetic acid (IAA). Generally necrotic shoots yielded more total CK compared to normal shoots. Cytokinin accumulation was higher at the basal section (basal > middle > top). Further analysis of the CKs based on structural and functional forms revealed excessive accumulation of 9-glucosides (deactivation products—toxic metabolites) and limited amounts of O-glucosides (storage forms—re-utilizable) in necrotic and BA-treated shoots compared to normal and topolin-treated cultures. The addition of IAA enhanced the formation of 9-glucosides in BA-treated cultures but reduced it in topolin-treated cultures. The symptom of STN could therefore be attributed to conversion of active cytokinins to other forms such as 9-glucosides which are neither active nor reversibly sequestrated to active forms. Literature shows that metabolites like 9-glucosides of BA have a detrimental effect in plant tissue culture.     

Assessment of the role of meta-topolins on in vitro produced phenolics and acclimatization competence of micropropagated ‘Williams’ banana

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 the phenolic content and subsequent acclimatization potential 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 aromatic cytokinins (CKs) for 42?days. Phenolic contents were quantified spectrophotometrically. Growth parameters and photosynthetic pigments of the greenhouse-acclimatized plants were determined after 5?months. Total phenolic levels were highest in 10 ??M mT-treated plantlets within the aerial parts and 30 ??M MemTTHP for the underground parts. In the underground parts, 10 ??M mT resulted in the production of the highest amount of proanthocyanidins which was approximately five-fold higher than in the control plants. Furthermore, 10 ??M MemTTHP-treated plantlets had significantly higher total flavonoids (30.1?±?0.24 mg CE/g DW) within the aerial parts. Plantlets regenerated using MemT, MemTR and MemTTHP had significantly longer roots and better shoot/root ratios compared to the control and BA-treated plants. In terms of root fresh weight, it was significantly higher in MemT-treated plantlets than in the control and BA treatments. Chlorophyll a/b ratio was significantly improved with the use of MemT, mTR and mT compared to control. Current findings indicate the potential of topolins in stimulating the accumulation of phenolic compounds in micropropagated plantlets. In view of the importance of plant secondary metabolites, their substantial accumulation probably enhanced the acclimatization and subsequent ex vitro survival of the micropropagated plantlets. Topolins, particularly, the new derivative MemTTHP could be an alternative CK for the micropropagation of plant species based on their stimulatory effect on ex vitro rooting that inevitably enhances acclimatization competence. Furthermore, topolins are demonstrated as potential elicitors in micropropagation.     

Topolins in Pelargonium sidoides micropropagation: do the new brooms really sweep cleaner?

Pelargonium sidoides DC is a geophytic species with high demand in the pharmaceutical, aromatherapy, perfumery and cosmetic industries as a result of its unique phytochemistry. The aim of this study was to develop a clonal propagation system for P. sidoides using explants from mature plants, with particular emphasis on the regeneration potential of N⁶-benzyladenine (BA) and kinetin (KIN) compared to meta-topolin (mT), meta-topolin riboside (mTR) and meta-methoxytopolin riboside (MemTR). Standard colorimetric assays were used to quantify phenolic constituents of the in vitro plants. Cytokinins had a significant effect on shoot regeneration compared to the control. Meta-topolins had significantly higher shoot multiplication and in vitro growth indices compared to both BA and KIN. The highest shoot multiplication indices were obtained at 5.0???M MemTR >2.0???M mTR >2.0???M MemTR >2.0???M mT. Pelargonium sidoides was intolerant to high BA concentrations as indicated by the low number of shoots per explant (1.0?±?0.19) at 5.0???M. Generally, there was a significant increase in phenolic constituents for the CK treatments when compared to the control. Shoot length increased with increasing indole-acetic acid (IAA) and indole-butyric acid (IBA) concentrations whereas the response for ??-naphthalene acetic acid (NAA) increased to an optimum then decreased. The highest root biomass was achieved on 1.0???M IAA >2.0???M NAA >2.0???M IBA. The rooting response observed in control plants may be due to the influence of endogenous auxins. In vitro P. sidoides plants were successfully established under ex vitro conditions. In conclusion, meta-topolins were significantly better than BA and KIN in shoot multiplication and promoting in vitro plant growth. The current findings contribute to the increasing research data on the importance of topolins as credible alternatives to traditional CKs in micropropagation.     

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.     

Identification,comparison, and functional analysis of salivary phenol‐oxidizing enzymes in Bemisia tabaci B and Trialeurodes vaporariorum

The differences in the ability of the invading whitefly, Bemisia tabaci (Gennadius) (commonly known as biotype B and hereafter as B) and Trialeurodes vaporariorum (Westwood) (both Hemiptera: Aleyrodidae) to utilize salivary phenol‐oxidizing enzymes – polyphenol oxidase (PPO) and peroxidase (POD) to detoxify plant defensive phenolic compounds were explored. Polyphenol oxidase and POD were found in the saliva of both B and T. vaporariorum. For tomato colonies, the PPO and POD activities in the watery saliva of B were 2.27‐ and 1.34‐fold higher than those of T. vaporariorum. The PPO activities against specific phenolic compounds commonly found in plants were compared. The activities of those from B were significantly greater than those from T. vaporariorum. We also measured PPO activity in both species after they had fed on plants that were undamaged or had been previously damaged with either a plant pathogen [Phytophthora infestans (Mont.) de Bary (Peronosporales)] infection, mechanical damage, B infestation, or exogenous salicylic acid. For B, PPO activities in watery saliva increased 229, 184, 152, and 139% in response to the four treatments, whereas those of T. vaporariorum only increased 133, 119, 113, and 103%, respectively. Biotype B infestation significantly increased the total phenolic content of tomato leaves. Meanwhile, feeding on tomato infestation with B had no significant effect on the survival rate of B, but decreased the survival rate of T. vaporariorum significantly. These results suggest that B has stronger ability utilizing PPO to detoxify high concentrations of phenolics than T. vaporariorum, and this contributes to a significant advantage for B to hold high fitness on plants with induced resistance. Possible roles of salivary PPO in the competition between B and T. vaporariorum are discussed.     

Recalcitrant effects associated with the development of basal callus-like tissue on caulogenesis and rhizogenesis in <Emphasis Type="Italic">Sclerocarya birrea</Emphasis>

In the micropropagation of woody plant species, adventitious root and shoot formation remain some of the major bottlenecks due to their recalcitrance to in vitro manipulation. Some plant growth regulators may ameliorate these recalcitrant effects and improve in vitro caulogenic and rhizogenic processes. Shoot induction on shoot meristems, hypocotyls and epicotyls was evaluated using equimolar concentrations of benzyladenine (BA), meta-topolin (mT), meta-topolin riboside (mTR), and meta-methoxytopolin riboside (MemTR). Three auxins, indole-3-acetic acid (IAA), indole-3-butyric acid (IBA) and α-naphthalene acetic acid (NAA) were used in the induction of adventitious roots. Moderately high shoot formation (62.7%) was achieved at a concentration of 8.0 μM mT after 8 weeks in culture. The highest number of adventitious shoots per explant (2.4 ± 0.3) and the longest shoots (23.5 ± 3.16 mm) were recorded on 8.0 μM mT, though not significantly different from BA treatments. Most shoots progressively produced brown basal callus, which is a potential sink for cytokinin conjugates that are inhibitory to further proliferation of adventitious shoots. Good adventitious shoot formation occurred in 55% of hypocotyl explants on 8.0 μM mT. The highest rooting (91.6%) was achieved with IBA-treated shoots at a concentration of 4.0 μM. The use of mT and IBA provide an efficient micropropagation method for S. birrea, though further research is required especially in overcoming ex vitro plantlet survival challenges.     

The role of <Emphasis Type="Italic">meta</Emphasis>-topolins in alleviating micropropagation problems

Low shoot multiplication, morphological abnormalities, poor rooting frequency and high cost of production are among the factors challenging the micropropagation of ornamental perennials and garden plants. Most of these problems can be alleviated by using the appropriate type and concentration of plant growth regulator(s) (especially cytokinins) in developing efficient micropropagation protocols. In this study, we investigated the effects of five different aromatic cytokinins (BA, Kin, mT, mTR and MemTR) on adventitious shoot production from shoot-tip explants of B. greenii, a critically endangered plant with horticultural potential. Of all the cytokinin concentrations evaluated, the highest adventitious shoot production (5.88 ± 0.73 shoots/explant) was observed in cultures containing 7 μM MemTR. Low adventitious shoot production, which was not significantly different from that of the control, was observed at all the concentrations of kinetin (Kin), suggesting that it is a weak cytokinin for shoot production in this species. All the treatments with BA alone showed higher adventitious shoot production when compared to the BA treatments supplemented with NAA concentrations. At equimolar concentrations, however, all the BA concentrations had a higher abnormality index than the other cytokinins. It is noteworthy that the abnormality index in all the topolin treatments was much lower than that recorded at the lowest BA concentration. Almost all the abnormality indices recorded with mTR and MemTR concentrations were lower than that of the control. Given that the explants used were from BA-containing cultures, it is likely that the abnormalities recorded using mTR and MemTR were carry-over effects of BA. Culturing under 16 h light/8 h dark conditions resulted in a higher production of adventitious shoots with lengths greater than 10 mm compared to culturing under continuous light. This measure could help reduce the cost of production. Regenerated shoots were successfully rooted and acclimatized with a 65% survival frequency and no observable morphological variation. The developed micropropagation protocol has the potential for producing more than 60,000 transplantable shoots per year from a single shoot-tip explant of this critically endangered species.     

‘Real time’ genetic manipulation: a new tool for ecological field studies

Field experiments with transgenic plants often reveal the functional significance of genetic traits that are important for the performance of the plants in their natural environments. Until now, only constitutive overexpression, ectopic expression and gene silencing methods have been used to analyze gene‐related phenotypes in natural habitats. These methods do not allow sufficient control over gene expression for the study of ecological interactions in real time, of genetic traits that play essential roles in development, or of dose‐dependent effects. We applied the sensitive dexamethasone (DEX)‐inducible pOp6/LhGR expression system to the ecological model plant Nicotiana attenuata and established a lanolin‐based DEX application method to facilitate ectopic gene expression and RNA interference‐mediated gene silencing in the field and under challenging conditions (e.g. high temperature, wind and UV radiation). Fully established field‐grown plants were used to silence phytoene desaturase and thereby cause photobleaching only in specific plant sectors, and to activate expression of the cytokinin (CK) biosynthesis gene isopentenyl transferase (ipt). We used ipt expression to analyze the role of CKs in both the glasshouse and the field to understand resistance to the native herbivore Tupiocoris notatus, which attacks plants at small spatial scales. By spatially restricting ipt expression and elevating CK levels in single leaves, damage by T. notatus increased, demonstrating the role of CKs in this plant–herbivore interaction at a small scale. As the arena of most ecological interactions is highly constrained in time and space, these tools will advance the genetic analysis of dynamic traits that matter for plant performance in nature.     

The role of topolins in micropropagation and somaclonal variation of banana cultivars ‘Williams’ and ‘Grand Naine’ (<Emphasis Type="Italic">Musa</Emphasis> spp. AAA)

The effect of the cytokinins mT (meta-topolin), mTR (meta-topolin riboside), MemT (meta-methoxy topolin) and MemTR (meta-methoxy topolin riboside) on micropropagation of banana cultivars ‘Williams’ and ‘Grand Naine’ was studied and compared to BA (6-benzylaminopurine). In vitro cultures, at the third sub-culture level, were purchased from African Biotechnologies (Pty) Ltd., South Africa. These were then sub-cultured on MS media containing 7.5, 15 and 30 μM of all the cytokinins tested. Results recorded after 6 weeks of growth demonstrated that there were statistically significant differences between the parameters analyzed for the treatments. Superior multiplication rates were recorded for mT and mTR treatments. This result was consistent when compared to BA at 22.2 μM (previously published standard concentration). Contrary to previous findings with other species, these cytokinins inhibited rooting. The effect on somaclonal variation was not significantly different when BA, mT and mTR were tested at the seventh multiplication cycle for ‘Williams’ banana. These results support the possible use of topolins as an alternative to BA for Cavendish banana tissue culture. The role of these cytokinins on somaclonal variation however, requires a more stringent investigation as the results obtained in this investigation could have been influenced by carry-over effects from the initial cultures.     

Efficacy of Acibenzolar‐S‐Methyl and β‐Aminobutyric Acid for Control of Downy Mildew in Greenhouse Grown Basil and Peroxidase Activity in Response to Treatment with these Compounds

Downy mildew, caused by the oomycete pathogen Peronospora belbahrii, is a devastating foliar disease of basil in the United States and worldwide. Currently there are very few chemistries or organic choices registered to control this disease. In this study, two systemic acquired resistance (SAR) inducers, acibenzolar‐S‐methyl (ASM) and β‐aminobutyric acid (BABA), were evaluated for their in vitro effects on the pathogen, for their potential to control basil downy mildew in greenhouses, and for changes in peroxidase activity in basil plants treated with these two SAR inducers. No significant inhibition of sporangial germination was detected in water agar amended with ASM at concentrations lower than 100 mg/l or with BABA at concentrations lower than 500 mg/l. Efficacy of ASM and BABA in greenhouses varied depending on the rate, method and timing of application. The area under the disease progress curve (AUDPC) of disease severity was significantly reduced compared to the non‐treated control when ASM was sprayed (in all experiments) or drenched (in one out of two experiments) pre‐, or pre‐ + post‐inoculation at rates of 25–400 mg/l. Three weekly post‐inoculation sprays of ASM at the rate of 50 mg/l reduced AUDPC by 93.0 and 47.2% when started 3 and 7 days after inoculation (DAI), respectively. The AUDPC of disease severity was also significantly reduced when BABA was sprayed pre‐ + post‐inoculation at rates of 125–500 mg/l. According to the prediction using a log‐logistic function, 50% maximum disease protection was achieved at a concentration of 27.5 mg/l of ASM. Basil plants treated with these two SAR inducers and challenged with the pathogen showed significantly higher peroxidase activity than the non‐treated control at 8 DAI. Temporally, the highest activity of peroxidase was detected at 8 DAI, decreased at 15 DAI and waned further at 23 DAI.     

Physiological responses and endogenous cytokinin profiles of tissue-cultured ‘Williams’ bananas in relation to roscovitine and an inhibitor of cytokinin oxidase/dehydrogenase (INCYDE) treatments

The effect of supplementing either meta-topolin (mT) or N ⁶-benzyladenine (BA) requiring cultures with roscovitine (6-benzylamino-2-[1(R)-(hydroxymethyl)propyl]amino-9-isopropylpurine), a cyclin-dependent kinase (CDK) and N-glucosylation inhibitor, and INCYDE (2-chloro-6-(3-methoxyphenyl)aminopurine), an inhibitor of cytokinin (CK) degradation, on the endogenous CK profiles and physiology of banana in vitro was investigated. Growth parameters including multiplication rate and biomass were recorded after 42?days. Endogenous CK levels were quantified using UPLC–MS/MS while the photosynthetic pigment and phenolic contents were evaluated spectrophotometrically. The highest regeneration rate (93?%) was observed in BA?+?roscovitine while mT?+?INCYDE plantlets produced most shoots. Treatment with BA?+?roscovitine had the highest shoot length and biomass. Although not significant, there was a higher proanthocyanidin level in BA?+?roscovitine treatments compared to the control (BA). The levels of total phenolics and flavonoids were significantly higher in mT?+?roscovitine treatment than in the mT-treated regenerants. The presence of roscovitine and/or INCYDE had no significant effect on the photosynthetic pigments of the banana plantlets. Forty-seven aromatic and isoprenoid CKs categorized into nine CK-types were detected at varying concentrations. The presence of mT?+?roscovitine and/or INCYDE increased the levels of O-glucosides while 9-glucosides were higher in the presence of BA. Generally, the underground parts had higher CK levels than the aerial parts; however, the presence of INCYDE increased the level of CK quantified in the aerial parts. From a practical perspective, the use of roscovitine and INCYDE in micropropagation could be crucial in the alleviation of commonly observed in vitro-induced physiological abnormalities.     

Native lagomorphs suppress grass establishment in a shrub‐encroached,semiarid grassland

Shrub encroachment into arid grasslands has been associated with reduced grass abundance, increased soil erosion, and local declines in biodiversity. Livestock overgrazing and the associated reduction of fine fuels has been a primary driver of shrub encroachment in the southwestern United States, but shrublands continue to persist despite livestock removal and grassland restoration efforts. We hypothesized that an herbivory feedback from native mammals may contribute to continued suppression of grasses after the removal of livestock. Our herbivore exclusion experiment in southeastern Arizona included five treatment levels and allowed access to native mammals based on their relative body size, separating the effects of rodents, lagomorphs, and mule deer. We included two control treatments and replicated each treatment 10 times (n = 50). We introduced uniform divisions of lawn sod (Cynodon dactylon) into each exclosure for 24‐hr periods prior to (n = 2) and following (n = 2) the monsoon rains and used motion‐activated cameras to document herbivore visitations. In the pre‐monsoon trials, treatments that allowed lagomorph access had less sod biomass relative to other treatments (p < 0.001), averaging 44% (SD 36%) and 29% (SD 45%) remaining biomass after the 24‐hr trial periods. Following the onset of monsoons, differences in remaining biomass among treatments disappeared. Desert cottontails (Sylvilagus audubonii) were detected more frequently than any of the other 11 herbivore species present at the site, accounting for 83% of detections during the pre‐monsoon trials. Significantly more (p < 0.001) desert cottontails were detected during the pre‐monsoon trials (2,077) compared to the post‐monsoon trials (174), which coincided with biomass removal from lagomorph accessible treatments. We conclude that desert cottontails are significant consumers of herbaceous vegetation in shrub‐encroached arid grasslands and they, along with other native herbivores, may act as a biotic feedback contributing to the competitive advantage and persistence of shrubs.     

Endogenous cytokinins in shoots of Aloe polyphylla cultured in vitro in relation to hyperhydricity, exogenous cytokinins and gelling agents

The process of hyperhydricity in tissue cultured plants of Aloe polyphylla is affected by both applied cytokinins (CKs) and the type of gelling agent used to solidify the medium. Shoots were grown on media with agar or gelrite and supplemented with different concentrations of N⁶-benzyladenine (BA) or zeatin (0, 5 and 15 μM). Endogenous CKs were measured in in vitro regenerants after an 8-weeks cycle to examine whether the hyperhydricity-inducing effect of exogenous CKs and gelling agents is associated with changes in the endogenous CK content. On media with agar a reduction in hyperhydricity occurred, while the gelrite treatment produced both normal and hyperhydric shoots (HS). The content of endogenous CKs, determined by HPLC-mass spectrometry, in the shoots grown on CK-free media comprised isopentenyladenine-, trans-zeatin- and cis-zeatin-type CKs. The application of exogenous CKs resulted in an increase in the CK content of the shoots. Following application of zeatin, dihydrozeatin-type CKs were also detected in the newly-formed shoots. Application of BA to the media led to a transition from isoprenoid CKs to aromatic CKs in the shoots. Shoots grown on gelrite media contained higher levels of endogenous CKs compared to those on agar media. Total CK content of HS was higher than that of normal shoots grown on the same medium. We suggest that the ability of exogenous CKs and gelrite to induce hyperhydricity in shoots of Aloe polyphylla is at least partially due to up-regulation of endogenous CK levels. However, hyperhydricity is a multifactor process in which different factors intervene.     

Volatiles from non‐host aromatic plants repel tea green leafhopper Empoasca vitis

The tea green leafhopper, Empoasca vitis Göthe (Hemiptera: Cicadellidae), is a serious pest of tea crops in China. The effectiveness of five aromatic non‐host plants, Corymbia citriodora (Hook.) (Myrtaceae), Ocimum basilicum L. (Lamiaceae), Lavandula pinnata L. (Lamiaceae), Ruta graveolens L. (Rutaceae), and Rosmarinus officinalis L. (Lamiaceae), was investigated to determine their ability to suppress E. vitis on tea plants. Volatile organic compounds derived from L. pinnata, R. officinalis, and C. citriodora were found to repel leafhoppers and to mask the host's odors. Intercropping L. pinnata and C. citriodora with tea plants significantly reduced the E. vitis population levels in the tea plantation associated with higher population densities of generalist predators. The volatile compounds from the five non‐host plants were collected by headspace absorption under field conditions, and the 10 major components were identified. Qualitative and quantitative differences were found among the five odor profiles. Moreover, the emission dynamics of non‐host volatiles were monitored. Non‐host volatile emissions showed two peak periods, one in the spring and one in the autumn period. These peaks were almost consistent with the population dynamics of E. vitis. Our findings suggested that this newer approach to ecologically based, sustainable pest management implemented via intercropping with non‐host aromatic plants such as L. pinnata and C. citriodora offers a promising alternative to chemical control of the leafhopper population.     

Soil nutrient status of KwaZulu–Natal savanna and grassland biomes causes variation in cytokinin functional groups and their levels in above-ground and underground parts of three legumes

Cytokinins (CKs) are involved in several developmental stages in the life-cycle of plants. The CK content in plants and their respective organs are susceptible to changes under different environmental conditions. In the current study, we profiled the CK content in the above and underground organs of three legumes (Lessertia frutescens, Mucuna pruriens and Pisum sativum) grown in soils collected from four locations (Ashburton, Bergville, Hluhluwe and Izingolweni) in KwaZulu-Natal province, South Africa. The quantified CK contents in the three legumes were categorized on the basis of their side chains (isoprenoid, aromatic and furfural) and modifications (e.g. free bases and glucosides). Legume and soil types as well as their interaction significantly influenced the concentrations of CKs. Lessertia frutescens, Mucuna pruriens and Pisum sativum had CK content that ranged from 124–653, 170–670 and 69–595 pmol/g DW, respectively. Substantial quantity (> 600 pmol/g DW) of CK were observed in plants grown in Bergville (above-ground part of Lessertia frutescens) and Izingolweni (underground part of Mucuna pruriens) soils. A total of 28 CK derivatives observed in the legumes comprised of isoprenoid (22), aromatic (5) and furfural (1) side-chain CKs. However, the 16 CK derivatives in Mucuna pruriens were isoprenoid-type based on the side-chain. Generally, a higher ratio of cis-zeatin (cZ) relative to the trans-zeatin (tZ) was evident in the above-ground part of Lessertia frutescens and Pisum sativum for the four soil treatments. In terms of functional and physiological importance of the CKs, the free bases (active form) and ribosides (translocation form) were the most abundant CK in Lessertia frutescens and Pisum sativum. However, N-glucoside, a deactivation/detoxicification product was the most dominant CK in Mucuna pruriens from Hluhluwe and Izingolweni soils. The total CKs in the underground parts of the legumes had a positive significant correlation with the total phosphorus and nitrogen content in the plant as well as the soil nitrogen. Overall, the CK profiles of the legumes were strongly influenced by the soil types.Supplementary InformationThe online version contains supplementary material available at 10.1007/s12298-021-01021-2.     

Differential induction of polar and non‐polar metabolism during wound‐induced suberization in potato (Solanum tuberosum L.) tubers

Wound‐induced suberin deposition involves the temporal and spatial coordination of phenolic and fatty acid metabolism. Phenolic metabolism leads to both soluble metabolites that accumulate as defense compounds as well as hydroxycinnamoyl derivatives that form the basis of the poly(phenolic) domain found in suberized tissue. Fatty acid metabolism involves the biosynthesis of very‐long‐chain fatty acids, 1‐alkanols, ω‐hydroxy fatty acids and α,ω‐dioic acids that form a poly(aliphatic) domain, commonly referred to as suberin. Using the abscisic acid (ABA) biosynthesis inhibitor fluridone (FD), we reduced wound‐induced de novo biosynthesis of ABA in potato tubers, and measured the impact on the expression of genes involved in phenolic metabolism (StPAL1, StC4H, StCCR, StTHT), aliphatic metabolism (StCYP86A33, StCYP86B12, StFAR3, StKCS6), metabolism linking phenolics and aliphatics (StFHT) or acyl chains and glycerol (StGPAT5, StGPAT6), and in the delivery of aliphatic monomers to the site of suberization (StABCG1). In FD‐treated tissue, both aliphatic gene expression and accumulation of aliphatic suberin monomers were delayed. Exogenous ABA restored normal aliphatic suberin deposition in FD‐treated tissue, and enhanced aliphatic gene expression and poly(aliphatic) domain deposition when applied alone. By contrast, phenolic metabolism genes were not affected by FD treatment, while FD + ABA and ABA treatments slightly enhanced the accumulation of polar metabolites. These data support a role for ABA in the differential induction of phenolic and aliphatic metabolism during wound‐induced suberization in potato.     

APOE genotype affects the pre‐synaptic compartment of glutamatergic nerve terminals

Apolipoprotein E (APOE) genotype affects outcomes of Alzheimer's disease and other conditions of brain damage. Using APOE knock‐in mice, we have previously shown that APOE‐ε4 Targeted Replacement (TR) mice have fewer dendritic spines and reduced branching in cortical neurons. As dendritic spines are post‐synaptic sites of excitatory neurotransmission, we used APOE TR mice to examine whether APOE genotype affected the various elements of the glutamate–glutamine cycle. We found that levels of glutamine synthetase and glutamate uptake transporters were unchanged among the APOE genotypes. However, compared with APOE‐ε3 TR mice, APOE‐ε4 TR mice had decreased glutaminase levels (18%, p < 0.05), suggesting decreased conversion of glutamine to glutamate. APOE‐ε4 TR mice also had increased levels of the vesicular glutamate transporter 1 (20%, p < 0.05), suggesting that APOE genotype affects pre‐synaptic terminal composition. To address whether these changes affected normal neurotransmission, we examined the production and metabolism of glutamate and glutamine at 4–5 months and 1 year. Using high‐frequency ¹³C/¹H nuclear magnetic resonance spectroscopy, we found that APOE‐ε4 TR mice have decreased production of glutamate and increased levels of glutamine. These factors may contribute to the increased risk of neurodegeneration associated with APOE‐ε4, and also act as surrogate markers for Alzheimer's disease risk.     

Chemical Characterization and Biological Activities of Phenolic‐Rich Fraction from Cauline Leaves of Isatis tinctoria L. (Brassicaceae) Growing in Sicily,Italy

The present work focused on the evaluation of the antioxidant and cytotoxic activities of the phenolic‐rich fraction (ItJ‐EAF) obtained from cauline leaves collected in January from Isatis tinctoria L. (Brassicaceae) growing wild around Acireale (Sicily, Italy). The total phenolic, flavonoid, and condensed tannin contents of the fraction were determined spectrophotometrically, whereas the phenolic profile was assessed by HPLC‐PDA/ESI‐MS analysis. A total of 20 compounds were positively identified and twelve out of them were never previously reported in I. tinctoria leaves. The fraction exhibited good radical scavenging activity in DPPH test (IC₅₀ = 0.6657 ± 0.0024 mg/ml) and reducing power (3.87 ± 0.71 ASE/ml), whereas, it neither showed chelating activity nor was able to counteract H₂O₂ induced oxidative stress damage in Escherichia coli. The antiproliferative effect was evaluated in vitro on two human anaplastic thyroid carcinoma cell lines (CAL‐62 and 8505C) by MTT assay. At the highest tested concentration ItJ‐EAF significantly reduced (80%) the growth of CAL‐62 cells. No cytotoxicity against Artemia salina was observed. It can be concluded that I. tinctoria cauline leaves represent a source of phenolic compounds which could be potentially used as chemopreventive or adjuvant agents against cancer.     

Effects of prohydrojasmon‐treated corn plants on attractiveness to parasitoids and the performance of their hosts

We investigated the effect of prohydrojasmon [propyl (1RS,2RS)‐(3‐oxo‐ 2‐pentylcyclopentyl) acetate] (PDJ) treatment of intact corn plants, on their attractiveness to the specialist endoparasitoid, Cotesia kariyai Watanabe (Hymenoptera: Braconidae), and on the performance of the common armyworm, Mythimna separata (Walker) (Lepidoptera: Noctuidae) under laboratory conditions. Attractiveness of C. kariyai to PDJ‐treated plants was studied in a wind tunnel, whereas performance of M. separata larvae was tested in plastic cages. The attractiveness of the treated plants increased with concentrations of PDJ increasing to 2 mm , which was equivalent to the attractiveness of host‐infested plants. PDJ‐treated corn plants emitted 16 volatile compounds (α‐pinene, β‐myrcene, (Z)‐3‐hexenyl acetate, limonene, (E)‐β‐ocimene, linalool, (E)‐4,8‐dimethyl‐1,3,7‐nonatriene, (+)‐cyclosativene, ylangene, (E)‐β‐farnesene, (E, E)‐4,8,12‐trimethyl‐1,3,7,11‐tridecatetraene, α‐bergamotene, γ‐cadinene, δ‐cadinene, α‐muulolene and nerolidol), most of which were observed in the headspace of host‐infested corn plants with some quantitative and qualitative differences. We also tested the effects of PDJ treatment on the performance of M. separata larvae. The survival rates of the larval and pupal stages were significantly lower at 2 mm level of PDJ. A significant decrease in weight at 6th stadium larvae was observed only at 2 mm level of PDJ. In contrast, PDJ treatment at all PDJ concentration levels caused significant reduction in weight of pupal stage as compared to control. These data suggested that PDJ, originally developed as a plant growth regulator, especially to induce coloring of fruits, has the potential to induce direct and indirect defenses in corn plants against common armyworm, M. separata.