Benzopyrans in <Emphasis Type="Italic">Hypericum polyanthemum</Emphasis> Klotzsch ex Reichardt cultured in vitro

Hypericum polyanthemum Klotzsch ex Reichardt, an endemic species of Southern Brazil, was micropropagated on MS medium supplemented with 1.78 μM BAP. Shoot proliferation and rooting was achieved on hormone-free medium and plantlets survived acclimatization. The bioactive compounds: 6-isobutyryl-5,7-dimethoxy-2,2-dimethyl-benzopyran (HP1), 7-hydroxy-6-isobutyryl-5-methoxy-2,2-dimethyl-benzopyran (HP2) and 5-hydroxy-6-isobutyryl-7-methoxy-2,2-dimethyl-benzopyran (HP3) were quantified in the leaves, stems and roots of propagated and acclimatized plantlets and compared with the field-grown plants. The HPLC analysis revealed that the three benzopyrans are accumulated in the aerial parts and the concentration varied with the age of the plant whereas the roots were capable of accumulating only HP3. Greatest yield of HP1 (7.12 mg/g DW) was quantified in the leaves of the acclimatized plantlets, whereas the flowers of the plants from natural habitat displayed higher amounts of HP2 (11.04 mg/g DW) and HP3 (13.99 mg/g DW).     

Phenolic compounds profiles during ex vitro acclimatization of micropropagated Hypericum polyanthemum.

Accumulation of benzopyrans and total phenolic compounds were assessed in acclimatized field grown plants of Hypericum polyanthemum, an endemic species of southern Brazil, harvested at different developmental stages. The HPLC analysis of bioactive compounds 6-isobutyryl-5,7-dimethoxy-2,2-dimethylbenzopyran (HP1), 7-hydroxy-6-isobutyryl-5-methoxy-2,2-dimethyl-benzopyran (HP2) and 5-hydroxy-6-isobutyryl-7-methoxy-2,2-dimethyl-benzopyran (HP3) revealed that the three benzopyrans are accumulated both in the vegetative and reproductive parts with maximum contents observed after 18 weeks (in the former) and 20 weeks (in the later) of plant growth (1.92+/-0.085 g % DW and 2.62+/-0.13 g % DW in the vegetative and reproductive parts, respectively). Highest contents of HP1 (1.56+/-0.12 g % DW) and HP2 (0.19+/-0.01 g % DW) were quantified in the green floral buds of the plants, whereas HP3 reached the highest level (1.02+/-0.08 g % DW) in the overblown flowers. The evaluation of total phenolic compounds showed that the vegetative parts accumulated the highest levels of the metabolites (51.93+/-0.67 mg QE (g DW)(-1)) after 16 weeks of plant growth. Considering the reproductive parts, the open flowers accumulated the greatest levels of the bioactive compounds (75.99+/-0.95 mg QE (g DW)(-1)). The results show that H. polyanthemum can be efficiently propagated and acclimatized to produce benzopyrans and other phenolic compounds.     

Influence of fungal elicitation with Nomuraea rileyi (Farlow) Samson in the metabolism of acclimatized plants of Hypericum polyanthemum Klotzsech ex Reichardt (Guttiferae)

Changes in biomass and bioactive metabolites after treatment with the fungus Nomuraea rileyi (Farlow) Samson added as dried culture (DC) or as dried autoclaved cell powder (DACP) for short and long periods of time have been investigated in Hypericum polyanthemum plants grown under controlled conditions and after 18 weeks of field acclimatization. Plants grown under controlled conditions and treated with DACP showed increased concentrations of the benzopyrans HP1 (6-isobutyryl-5,7-dimethoxy-2,2-dimethylbenzopyran), HP2 (7-hydroxy-6-isobutyryl-5-methoxy-2,2-dimethylbenzopyran), and HP3 (5-hydroxy-6-isobutyryl-7-methoxy-2,2-dimethylbenzopyran) while DC affected negatively or did not alter the synthesis of these compounds. Lower levels of the phloroglucinol derivative uliginosin B were detected in all treatments. Long time treatment with DACP of acclimatized plants triggered doubling of biomass as compared to control and chemical analyses demonstrated significant increase on total phenolic compounds in vegetative parts of plants. Moreover, the higher performance liquid chromatography analysis showed different pattern of metabolites accumulation, with higher yields of HP1, HP2, HP3 and uliginosin B in the reproductive parts of the plants treated with DACP during all experiments. The elevation of bioactive metabolites levels in response to the elicitor suggests that these compounds are inducible as part of the defense response of H. polyanthemum.     

Supercritical fluid extraction and high performance liquid chromatographic determination of benzopyrans and phloroglucinol derivative in Hypericum polyanthemum

The aerial parts of Hypericum polyanthemum Klotzsch ex Reichardt (Guttiferae) were successively extracted with supercritical carbon dioxide (SC CO₂) under pressures of 90, 120, 150 and 200 bar at different temperatures (40, 50 and 60 °C), and compared with the n-hexane extract obtained by ultrasound-assisted extraction. The samples obtained were examined regarding extraction yield and HPLC quantification of the main secondary metabolites, the benzopyrans HP1 (6-isobutyryl-5,7-dimethoxy-2,2-dimethylbenzopyran), HP2 (7-hydroxy-6-isobutyryl-5-methoxy-2,2-dimethyl-benzopyran) and HP3 (5-hydroxy-6-isobutyryl-7-methoxy-2,2-dimethyl) and the phloroglucinol derivative, uliginosin B. SFE presented higher selectivity than the n-hexane maceration, and the best condition to extract the target metabolites has been determined to be at 50 °C and for the high molecular-weight compound, uliginosin B, higher pressures were required.     

Determination of phenolic compounds in flowers of Hypericum species native to South Brazil and Peruvian Páramos

The flowers constitute one of the main sites of accumulation of phenolic compounds in plants of the Hypericum genus. In addition to their important pharmacological activities, some metabolites found in species from the section Brathys and Trigynobrathys appear to have chemotaxonomic significance according to the literature. HPLC analyses were carried out to assess the pattern and accumulation of the dimeric phloroglucinols, benzophenones, benzopyrans, flavonoids and a phenolic acid in flowers of Hypericum species native to southern Brazil and Peruvian Páramos. Qualitative and quantitative differences are reported. Uliginosin B and hyperoside were the main components detected in all species and with maximum concentrations up to 0.188 % in H. caprifoliatum and 5.987 % in H. andinum, respectively. The content of japonicin A varied from 0.003 to 0.087 % in H. myrianthum, while the yield of hyperbrasilol B ranged from 0.006 % in H. laricifolium to 0.011 % in H. caprifoliatum. The major compounds in H. polyanthemum and H. carinatum were the benzopyrans 6-isobutyryl-5,7-dimethoxy-2,2-dimethyl-benzopyran (HP1 = 0.200 %), 7-hydroxy-6-isobutyryl-5-methoxy-2,2-dimethyl-benzopyran (HP2 = 0.225 %) and 5-hydroxy-6-isobutyryl-7-methoxy-2,2-dimethyl-benzopyran (HP3 = 0.327 %) and benzophenones cariphenone A (0.309 %) and cariphenone B (0.062 %), respectively. Maximum amounts of chlorogenic acid, isoquercitrin, quercitrin and guaijaverin were observed, respectively, in H. campestre (1.458 %), H. andinum (1.161 %), H. carinatum (0.231 %) and H. laricifolium (0.404 %). The results obtained support the taxonomic evidence of the dimeric phloroglucinol derivatives at the section level.     

Benzopyrans from Hypericum polyanthemum.

From the aerial parts of Hypericum polyanthemum Klotzsch ex Reichardt (Guttiferae), three chromenes, 6-isobutyryl-5,7-dimethoxy-2,2-dimethyl-benzopyran; 7-hydroxy-6-isobutyryl-5-methoxy-2,2-dimethyl-benzopyran and 5-hydroxy-6-isobutyryl-7-methoxy-2,2-dimethyl-benzopyran were isolated. Their structures were determined by NMR spectroscopic analyses.     

In vitro propagation, histochemistry, and analysis of essential oil from conventionally propagated and in vitro-propagated plants of Varronia curassavica Jacq

Varronia curassavica is cultivated for the production of an essential oil useful in the pharmaceutical industry for its strong anti-inflammatory effect. Despite a growing demand, only a few studies have evaluated alternative sources of obtaining plantlets or ways to increase the yield of essential oil from this species. Therefore, this study aimed to optimize the in vitro multiplication rate and analyze the histochemistry and sesquiterpene production potential of conventionally propagated V. curassavica plants, in vitro shoots, and acclimatized plants derived from in vitro shoots. For axillary bud proliferation, Murashige and Skoog medium was supplemented with 6-benzyladenine and thidiazuron alone or in combination with naphthalene acetic acid. Axillary bud proliferation was obtained from culture of nodal or apical segments on medium containing half-strength Murashige and Skoog salts without growth regulators. After 35 d of culture, an average of five buds developed per explant. Elongation and rooting of shoots also occurred in this medium. After the transfer of rooted plants to ex vitro conditions, 100% of the plantlets survived. Histochemical analysis of leaf tissue showed the presence of lipids, acidic lipids, essential oil, phenols, and flavonoids. The essential oils from conventionally propagated and acclimatized plants were extracted by hydrodistillation and analyzed using gas chromatography. The essential oil from acclimatized plants had a similar profile to that from ex vitro plants, but with a higher concentration of the anti-inflammatory compound alpha-humulene.     

Effect of irradiance during acclimatization on content of proline and phytohormones in micropropagated Ulmus minor

This study aimed to investigate the effects of irradiance on plant growth and content of proline and phytohormones during ex vitro acclimatization of micropropagated Ulmus minor plants. In vitro rooted plants were acclimatized to ex vitro conditions in a climate chamber with two irradiances, 200 μmol m^?2 s^?1 (high irradiance, HI) and 100 μmol m^?2 s^?1 (low irradiance, LI) for 40 d. Immediately after the ex vitro transfer, the plants experienced a water deficit [wilting leaves with the reduced relative water content (RWC)], but following the experiment, the recovery of the RWC was more pronounced in the HI treatment. Also, the content of proline, ABA, and JA-Ile were higher in HI treatment. Growth analyses revealed that HI improved growth and biomass production.     

Direct somatic embryogenesis and shoot regeneration from leaves and internodes of Pluchea lanceolata (DC.) C.B. Clarke

Pluchea lanceolata (DC.) C.B. Clarke is a threatened native medicinal plant. Increasing the propagation of this plant will preserve the wild population and provide material for medicinal use. In vitro and field-collected shoots and leaves were tested for response to 2,4-dichlorophenoxyacetic acid (2,4-D) and thidiazuron (TDZ), for initiation of direct shoot regeneration (DSR), or direct somatic embryogenesis (DSE). Leaves and internodes collected from field-grown plants produced only callus, while in vitro–raised shoots exhibited DSR and DSE on Murashige and Skoog (MS) medium with 2,4-D and TDZ. Direct shoot regeneration occurred on medium with TDZ from internode and leaf segments obtained from in vitro–developed shoots. In vitro–grown shoots were rooted on half-strength MS medium with 2 mg L⁻¹ indole-3-butyric acid and acclimatized. Survival in natural conditions was 62.5% for DSE and 79% for DSR plantlets.

     

Stomatal physiology of a micropropagated CAM plant; Agave tequilana (Weber)

Experiments were designed to assess the capacity of an in vitro cultured CAM plant to control water loss and to examine the response of their stomata to various factors. Detached leaves of micropropagated Agave tequilana plants lost water at similar rates as did field-grown plantlets when dehydrated in air. This was consistent with the fact that stomata from micropropagated plants show similar morphology than field-grown plantlets. In addition, stomata from micropropagated plants responded to various factors in a manner similar to those from field-grown plantlets. It appears that in vitro culture does not affect the capacity of leaves to control water loss nor does it alters the nocturnal stomatal opening of this CAM plant.     

Micropropagation and β-ecdysone content of the Brazilian ginsengs <Emphasis Type="Italic">Pfaffia glomerata</Emphasis> and <Emphasis Type="Italic">Pfaffia tuberosa</Emphasis>

The aim of this study was to investigate both a mass in vitro propagation system and the β-ecdysone content in roots and aerial parts of Pfaffia glomerata and Pfaffia tuberosa. Nodal segments of two genotypes (BRA and JB-UFSM) of P. glomerata, originated from aseptically grown plants, were cultivated on hormone-free Murashige and Skoog medium. For the proliferation of P. tuberosa shoots, nodal segments, originated from aseptically grown plants, were either cultivated on hormone-free Murashige and Skoog (MS) medium or were supplemented with 1.0 μM thidiazuron (TDZ); the elongation and rooting of these plants were carried out on MS medium without TDZ. Plantlets of both species were acclimatized and transferred to field conditions. The β-ecdysone content in the plants was determined by high performance liquid chromatography. The BRA genotype showed a greater in vitro proliferation rate and β-ecdysone content than that of the JB-UFSM genotype. The culture of nodal segments of P. tuberosa on medium with 1.0 μM TDZ with subsequent subcultivation of shoots on hormone-free medium was shown to be a suitable method for micropropagation due to the high multiplication rate and good plant development. Both species showed good adaptation to ex vitro conditions. The β-ecdysone content in micropropagated P. tuberosa was similar to that found in field-grown plants. For both species, the aerial parts accumulated higher β-ecdysone content than roots. These results reveal that micropropagation is a successful, alternative method for rapid plant multiplication of both species of Brazilian ginseng. Furthermore, this study demonstrates that these two species have a potential for cultivation that is associated with high β-ecdysone production.     

Phenolic compounds accumulation in <Emphasis Type="Italic">Hypericum ternum</Emphasis> propagated in vitro and during plant development acclimatization

The phenolic compound content of Hypericum ternum was investigated after micropropagation establishment and during acclimatization over the phenological development of the plant. Plantlets cultured in vitro on full Murashige and Skoog medium without growth regulators displayed higher phenolic compound yields, were acclimatized, and field grown. Production of total phenolic compounds as well as hyperoside, chlorogenic acid, quercitrin, guaijaverin, isoquercitrin, and uliginosin B were quantified at vegetative, flowering and fructification stages, and different plant organs (roots, stems, leaves and reproductive parts) showing that reproductive parts at flowering stage and the leaves at fructification stage were the main repository site of secondary metabolites, except for uliginosin B. The stems were the least accumulative organ, while the roots accumulated only hyperoside and uliginosin B. Moreover, the accumulation of most of the flavonoids and uliginosin B in acclimatized plants surpassed the levels found in the wild plant, warranting further research with the species.     

In vitro shoot proliferation of 5-leaf aralia explants from field grown plants and forced dormant stems

A. Sieboldianus (5-leaf aralia) is recalcitrant for micropropagation, but has very good landscaping potential. This research was conducted with the following objectives: (1) to study effects of BA, TDZ, CPPU, 2iP, kinetin and zeatin in woody plant medium on the performance of softwood shoot nodal explants produced by field grown 5-leaf aralia plants; (2) to investigate influences of BA or TDZ in the forcing solution on subsequentin vitro shoot initiation of nodal explants taken from forced softwood growth. Shoot initiation of softwood nodal explants from field-grown plants was promoted by adding BA, TDZ or CPPU to the culture medium. Kinetin, zeatin and 2iP were ineffective for micropropagation ofA. Sieboldianus. The forced softwood growth for use as explants was “primed” by forcing dormant stems in solution containing 200 mg 8-HQC per liter plus 2% sucrose, 44.4, 222, or 444 μM BA, or 45.4, 227, or 454 μM TDZ. BA and TDZ in the forcing solution enhanced subsequentin vitro axillary shoot initiation of nodal explants taken from forced stems by doubling the number of shoots produced per explant to 3.3 from 1.65 shoots per explant taken from field grown plants. This forcing solution technique also reduced the time needed from culture initiation to potted plants to half of the time needed for the conventional micropropagation method (12 to 14 vs. 25 to 27 weeks), thus expediting the micropropagation ofA. Sieboldianus.     

Determination of antioxidant activity and phenolic content of extracts from in vivo plants and in vitro materials of Passiflora alata Curtis

Passiflora alata Curtis, commonly known as sweet passion fruit, is one of the commercially cultivated species of the genus Passiflora, whose fruits can be consumed in natura due to their sweet taste. It is also used worldwide as an ornamental and in folk medicine. The goal of this work was the evaluation of the antioxidant potential of extracts from in vivo plants, and in vitro-derived materials of P. alata. Leaves from in vivo plants were used for the optimization of parameters that affect the efficiency of extraction of antioxidant compounds (proportions of ethanol:water, maceration period, solvent:plant tissue ratio, and number of extraction stages), by employing the 2,2-diphenyl-1-picrylhydrazyl (DPPH) assay. The antioxidant activity and the extract yields were significantly influenced by the proportion of ethanol:water and maceration period. The optimized protocol was applied to obtain the extracts of in vitro-derived materials. Total phenolic content was determined using the Folin–Ciocalteu method. Higher antioxidant activities and phenolic contents were observed in extracts from leaves of in vivo-seed derived and from acclimatized plants when compared to in vitro plants, calluses and suspension cultures. Differences in the reaction kinetics of DPPH scavenging activity were also observed.     

Growth and Photosynthetic Characteristics of Solanum tuberosum Plantlets Cultivated in Vitro in Different Conditions of Aeration, Sucrose Supply, and CO(2) Enrichment

Growth characteristics, oxygen exchange, and carbohydrate and chlorophyll contents were determined 30 days after subculturing of single node-derived plantlets of Solanum tuberosum cv Haig cultivated in vitro. Cultivation conditions were: (a) photomixotrophy in closed vessel, (b) photomixotrophy in closed vessel on medium supplemented with silver thiosulfate, (c) photomixotrophy in aerated vessel, (d) photoautotrophy in air, (e) photoautotrophy in CO₂-enriched air. In photomixotrophic conditions, aeration of the vessel enhanced sucrose utilization and had a positive effect on plantlet growth. In photoautotrophic conditions, growth of the plantlets was slow in air and was strongly enhanced by CO₂ enrichment of the atmosphere. Starch to sucrose ratios were higher in plants grown photoautotrophically than in plants grown with sucrose in the medium. Oxygen exchange characteristics on a chlorophyll basis were similar between the plantlets when measured under moderate light, and resembled those of greenhouse plant leaves. In high light, however, plantlets grown photoautotrophically in a CO₂-enriched atmosphere had higher oxygen exchange rates. We concluded from these results that potato plantlets in vitro in conditions (c), (d), and (e) developed C3-plant photosynthetic characteristics, which were in photoautotrophically grown plantlets comparable to those of field-grown plants.     

Quantification of allelopathic potential of sorghum residues by novel indexing of richards' function fitted to cumulative cress seed germination curves

The inhibitory activity of aqueous extracts of field-grown sorghum (Sorghum bicolor cv. Bird-a-boo) herbage and roots was quantitatively indexed by three aspects of cumulative cress (Lepidium sativum cv. Curlycress) seed germination: the germination onset; weighted mean rate; and final germination percentage. Extract potency was greatest for herbage collected four weeks after planting but declined sharply thereafter as the plants matured. About 91% of the inhibitory activity obtained from four-week-old herbage was in a low molecular weight fraction. Differential effects of herbage and root extracts on cress seed germination suggest that the nature and/or proportion of biologically active substances extractable from these plant parts is dissimilar.     

Comparative determination of the essential oil composition in Bulgarian endemic plant Achillea thracica Velen. during the process of ex situ conservation

Ex situ conservation of Bulgarian endemic plant Achillea thracica Velen. was achieved by successful in vitro cultivation of mono-nodal segments on MS-B5 medium supplemented with 1.0 mg/L BA for 20 days and subsequent transferring of regenerated plants on hormone free basal MS-B5 medium for root development and accumulation of leaf biomass. In vitro multiplicated plants were successfully acclimated in a growth chamber with 100% survival. GC–MS analysis of the essential oils resulted in the identification of 30, 10 and 28 compounds in in situ grown, in vitro cultivated and ex vitro adapted plants, respectively, constituting 77.7%, 99.9% and 84.1% of the total oils. The wider variety of compounds was found in the essential oils of in situ and ex vitro adapted plants where santolina alcohol, β-eudesmol, 1,8-cineole, germacrene D, α-cadinol and artemisia alcohol were the principal components comprising 68.7% and 69.3 of the oil, respectively. In vitro cultivated plants consist of mainly 1,8-cineole, germacrene D and artemisia alcohol representing 87% of the oil. Different growth conditions affect the composition of essential oils, suggesting their possible involvement in the process of adaptation and surviving in changing environmental conditions.     

Phytochemical analysis,antioxidant and antimicrobial activity of wild and in vitro derived plants of Ceropegia thwaitesii Hook – An endemic species from Western Ghats,India

Ceropegia thwaitesii Hook (Asclepiadaceae), an endemic plant species, due to habitat destruction and over exploitation has a very restricted distribution in the Western Ghats of Tamil Nadu, India. The present wrok aimed to determine the chemical composition, the total phenolic (TPC), flavonoid (TFC) and tannin content (TEC), and to assess the antioxidant properties of various extracts of in vivo plants (IVP) and in vitro regenerated plants (IRP) of C. thwaitesii. Some phenolic compounds like gallic acid, cathechol, vanillin and salicylic acid were identified and quantified by HPLC. All the extracts possessed relevant radical scavenging activity on DPPH, Superoxide radical scavenging activity, and Nitric oxide radicals as well as total antioxidant ability. DPPH assay of in vitro methanol stems extracts and ethanol leaves extracts revealed the best antioxidant properties with important IC₅₀ values of 0.248?±?0.45?µg/mL and 0.397?±?0.67?µg/mL, respectively, whereas in vivo chloroform stems extracts showed a lower antioxidant activity (IC₅₀ of 10.99?±?0.24?µg/mL). The IRP methanol extracts of stem and leaves had good inhibitory activity against all tested microorganisms in a dose-dependent manner. These results suggested that in vitro raised plants of C. thwaitesii are an excellent source of antioxidant compounds to be exploited on an industrial level as food additive.     

A screening strategy of fungal biocontrol agents towards Verticillium wilt of cotton

Three hundred and seventy-three fungal isolates were obtained from the endorhiza, rhizosphere, and bulk soil of field-grown cotton plants. One hundred and five of them produced obvious inhibition zones against Verticillium dahliae Kleb., so they were selected as antagonists towards this pathogen. An assessment system was established to evaluate these 105 antagonists for their biocontrol potential and plant growth-promoting potential. Their biocontrol potential was assessed according to their in vitro antagonistic activity against V. dahliae and activities of fungal cell wall degrading enzymes including protease, cellulase, and chitinase. Their plant growth-promoting potential was assessed according to their in vitro activities of solubilizing phosphate and fixing nitrogen. Thirty-three antagonists received at least three points of the total value of assessed biocontrol potential and plant growth-promoting potential and were tested for their biocontrol efficacy and growth-promoting effect on cotton under greenhouse conditions. Twelve of them achieved positive biocontrol efficacy ranging from 8.58% to 69.78%; the conventional correlation coefficient of the biocontrol efficacy of these antagonists with their assessed biocontrol potential was 0.926. By using the screening strategy developed in this study, Fusarium oxysporum strain By125, Nectria haematococca Bx247, and Phomopsis sp. By231 were identified as potential BCAs for controlling Verticillium wilt in cotton, for they achieved biocontrol efficacy of 63.63–69.78% towards this disease and increased biomass by 18.54–62.63% under greenhouse conditions. The present study also demonstrated that the endorhiza of field-grown cotton plants may be a richer source of potential BCAs against Verticillium wilt than the rhizosphere and bulk soil.     

The potential role of immobilization in plant cell biotechnology

It has long been hoped that the unique biosynthetic capacity of plants could be exploited in vitro using culture systems analogous to microbial fermentations. However, the characteristics of both the growth and metabolism of plant cells in vitro differ considerably from those of microbial cells and plant cell suspension culture systems have met with limited success. Immobilizing the cells creates a new set of options for the plant biotechnologist to explore. Improvements in some process criteria are apparent although evaluating the potential of immobilized plant cells for producing commercial compounds will only be possible when the biological problems have been overcome.