Research Centre for Plant Growth and Development

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The physiological response of cut carnation flowers to ethanol and acetaldehyde post-harvest treatments.
(2000) Podd, Lindsey Alice.; Van Staden, Johannes.
A replacement for silver thiosulphate as a commercial post-harvest treatment needs to be found. The longevity of cut carnation flowers is extended by all concentrations of ethanol tested. Compared to a water control, the vase-life of ethanol-treated flowers is between 150 and 250% longer. The greatest longevity increases are recorded with 3% ethanol. The use of ethanol as a post-harvest treatment was tested. The longevity increase as a result of ethanol application only occurs if the ethanol is applied as a holding solution. Pulse treatments are not effective at delaying the senescence of the flowers. The sooner the ethanol is applied, the greater the increase in vase life. If ethanol treatment is halted at any point during the experiment, the longevity of the flowers is reduced. It was observed that the longer the stems of ethanol-treated flowers, the greater the longevity increases. The ethanol holding solution does not prevent the action of external ethylene, thereby restricting the potential of ethanol as a commercial post-harvest treatment. Physiologically, flowers treated with ethanol exhibit a different senescence process to control flowers. The typical in-rolling of the petals of carnation flowers is not seen, instead the petals appear burnt. The ovaries are also notably effected by ethanol, being smaller and more yellow in colour. Ethanol treatment results in longevity increases by inhibiting the formation of ethylene, the plant hormone responsible for senescence. The concentration of the direct precursor to ethylene, ACC, as well as the activity of the enzyme that converts ACC to ethylene, ACC oxidase, is reduced to almost zero in the tissues of treated flowers. Another physiological factor affected by ethanol treatment is the carbohydrate status of the flowers. The normal sink activity of the ovary is inhibited by ethanol treatment. Although the carbohydrate content of the petals is found to decrease sharply in ethanol-treated flowers, these carbohydrates are not relocated to the ovary. The ovary does not increase in dry matter or chlorophyll content. The carbohydrate content decreases as a result of ethanol treatment, and when ¹⁴C sucrose was applied to petals, no radioactivity was recovered in the ovary. The petals and ovary are the organs most effect by ethanol activity, as when ¹⁴C ethanol was applied to cut carnation flowers as a pulse, the majority of the radioactivity was discovered here. The protein content of cells of both organs decreases significantly compared to control flowers. This is a total protein loss, rather than the destruction of specific systems. If the activity of alcohol dehydrogenase is prevented in ethanol-treated flowers, inhibiting the conversion of ethanol to acetaldehyde, no longevity increases are seen. The airspace surrounding treated flowers was found to contain ethanol and small amounts of acetaldehyde. The tissues of flowers treated with ethanol show an increase in the acetaldehyde content, as well as the ethanol content, especially in the ovary. The application of acetaldehyde directly to cut carnation flowers as a holding solution resulted in the vase life of the flowers increased by 150%. To determine the effectiveness of acetaldehyde as a post-harvest treatment, various concentrations of acetaldehyde were applied to cut carnation ftowers as a pulse treatment and a holding solution. Pulse treatments did not increase the vase life of flowers, and resulted in a number of negative effects in the flower. A holding solution of acetaldehyde does increase the longevity of cut carnation flowers, provided it is above a certain concentration. Treatments at concentrations below 1% acetaldehyde appear to promote flower senescence. The use of acetaldehyde as a post-harvest treatment has many of the same disadvantages as ethanol treatment. Acetaldehyde must also be applied as a holding solution for as long as possible. If removed from this solution, death of the organ occurred quickly. Acetaldehyde is also ineffective against external ethylene. A negative effect of acetaldehyde not found in ethanol-treated flowers, is that the longer the stem of cut carnation flowers, the shorter the resultant vase life. Physiologically the responses in cut carnation flowers were very similar to those seen in ethanol-treated flowers. Acetaldehyde inhibited the formation of ethylene completely. Almost no ACC can be found in treated tissues, and the action of ACC oxidase is completely reduced. The petals of acetaldehyde-treated flowers suffer from severe petal browning, rather than in rolling. The ovaries are particularly badly effected by treatment. There are large scale losses in fresh weight and chlorophyll content. The latter results in the ovaries appearing yellow in colour. They also show a loss in structure. The sink activity of these ovaries is destroyed. Like ethanol-treated flowers, the carbohydrate content of both the petals and ovaries are dramatically reduced. When ¹⁴C sucrose was applied to one of the. petals, almost no radioactivity was recorded in the ovary. There. is also a major loss in general protein content, slightly more severe than in ethanol-treated flowers. The conversion of ethanol to acetaldehyde is necessary in order to achieve longevity increases in ethanol-treated flowers. If the conversion of this acetaldehyde to ethanol is prevented in acetaldehyde-treated flower there is once again no longevity increase. Both ethanol and acetaldehyde are required within the system to result in increased longevity. Although ethanol and acetaldehyde treatments result in decreases in the total protein content of the flowers, certain enzymes remain active. Alcohol dehydrogenase is a bi-directional enzyme, capable of converting ethanol to acetaldehyde and then back to ethanol again. The activity of this enzyme, in both orientations, is increased in ethanol and acetaldehyde-treated flowers. The activity of pyruvate decarboxylase, which converts pyruvate to acetaldehyde, is also increased as a result of both treatments. The similarities of the physiological response of cut carnation flowers to ethanol and acetaldehyde post-harvest treatments, and the increased activity of these enzymes, indicate that the effect of both compounds on longevity is closely linked.
Monocarpic senescence in Bidens pilosa L.
(2000) Zobolo, Alpheus Mpilo.; Van Staden, Johannes.
Senescence was examined in the economic weed Bidens pilosa, with the objectives to a) determine the effects of deflowering and defruiting on growth, chlorophyll content, photosynthesis and transpiration; b) to identify the stage of development of the head at which the flowers, seeds/fruit produce senescence signals; and c) to test for senescence activity in plant extracts made from the receptacles and leaves of Bidens pilosa. Total chlorophyll content in the controls, in association with the development of fruit, was lower in the final harvests when compared with earlier harvests in both pot and field-grown plant experiments. Deflowered Bidens pilosa plants had a higher chlorophyll concentration than both defruited and control plants in both pot and field-grown plants. Stem death of the control plants was higher than that of deflowered plants in both field and pot experiments. The present results suggest that deflowering is essential if the leaves are to be harvested commercially because it retards senescence and maintains growth. Fruit and flower heads were responsible for the reduction in leaf and stem growth after flowering in Bidens pilosa. Removing these organs slowed plant decline, suggesting that the flower head and especially the fruit are responsible for senescence. In contrast, the fruit were the main organs responsible for the decline in leaf chlorophyll concentration. In pot-grown plants in full sunlight, photosynthesis and transpiration were low in deflowered plants compared with the control and defruited plants 45 days after treatment, and it coincided with a low stomatal conductance. These results suggest that stomatal conductance played a role in lowering photosynthesis in deflowered plants. In contrast, the control plants had a higher stomatal conductance than deflowered plants 75 days after treatment, yet photosynthesis and transpiration rates were the same in both treatments. Thus stomatal conductance alone does not successfully explain differences in photosynthesis in these treatments. The dry weight of head with mature dry fruit was higher in plants grown at high light intensities than at medium or low light intensities. It coincided with a greater decline in chlorophyll concentration in the leaf nearest to the head and fruit. In contrast, photosynthesis was the same at all light intensities in the leaf nearest to the head and fruit. This suggests that high light accelerated the process of fruit maturation of the fruit which then influenced senescence in the leaf nearest to the flower head. Ethanolic and water extracts of senescent receptacles purified using paper chromatography, induced senescence of leaves in light but not in the dark. In ethanolic extracts, activity was detected in R[f]s 0.1, 0.2 and 0.3. In water extracts, activity was detected in R[f] 0.1. Senescent leaf extracts purified using column chromatography also induced senescence in light under greenhouse conditions. At high concentrations, activity was detected in fraction 10 eluted with ethyl acetate: methanol (55:45); fraction 11 eluted with ethyl acetate: methanol (50:50); fraction 12 eluted with methanol (100%) and in fraction 13 eluted with ethylacetate : isopropanol: water: acetic acid (52:28:28:4). Under growth room conditions, activity was detected in fractions 12, eluted with methanol (100%) and 13, eluted with ethyl acetate: isopropanol: water: acetic acid (52:28:28:4) in the presence of light. Fraction 1 (R[f] 0.00-0.10) from senescent receptacles, non-senescent and senescent leaves, obtained following thin layer chromatography of ethanolic extracts induced senescence under light. Fraction 1 was eluted with methanol. This fraction lacked activity when eluted with ethyl acetate. Fraction 4 (R[f] 0.25 - 0.35) from non-senescent leaf extracts, which co-chromatographed with 4-chloroindole acetic acid, gave activity in bean cuttings kept under continuous low light. Senescent leaf extracts showed no activity. Fraction 7 (R[f] 0.9 - 1.0) from non-senescent leaf extracts, also induced senescence in bean cuttings under light. The same Fraction from senescent leaf extracts lacked activity.
Stress related responses in soybean.
(2000) Liu, Tao.; Van Staden, Johannes.
Environmental stresses such as drought, salinity and low temperature have been major selective forces throughout plant evolution and are important factors which limit crop plant distribution and agricultural productivity. An understanding of how crops adapt to adverse conditions is not only of theoretical interest, but also has considerable practical value . Low-temperature stress subtraction libraries were constructed in a pBluescript vector with the two-step-PCR amplified cDNAs using subtractive hybridization. One insert cs18 was obtained and the sequence analysis of insert cs18 revealed that the insert cDNA had a 76% homology with the sequences of the corresponding portion of glucose dehydrogenase from Thermoplasma acidophilum and 62.0% homology with a genomic DNA of Arabidopsis. Four clones, cs18-13, cs18-14, cs18-15, and cs18-16 from low-temperature stress soybean root conventional cDNA library have been confirmed to have inserts that could hybridize to the cs18 insert. One cDNA with a Xba I and Xho I fragment of approximately 3,500 bp in length corresponded to the insert cs18 , which probably encodes for glucose dehydrogenase, was obtained. Northern blot analysis indicated that cs18 mRNA was highly expressed in soybean root but moderately expressed in leaves under low temperature. Changes in the nuclei of meristematic root cells in response to severe salinity were studied. Roots are in direct contact with the surrounding solution . Thus, they are the first to encounter the saline medium and are potentially the first site of damage or line of defence under salt stress. Nuclear deformation or degradation in the soybean root meristem with 150 mM or higher NaCI led to sequential cell degradation, cell death and cessation of plant growth . However, this study indicates that an increase in CaCI[2] concentration up to 5 mM could partially prevent salt injury to the cells. Tissue culture is an excellent tool for elucidat ing the correlation between plant organizational levels and salt tolerance because of the possibility it offers for studying the physiology of intact plantlets together with that of organs and single cells using homogenous plant material under uniform environmental conditions. One NaCI-tolerant cell line (R100) was isolated during this study. The R100 callus cell line was significantly more tolerant to salt than the salt-sensitive line (S100) during exposure to salt stress. Salt tolerance in this culture was characterized by an altered growth behaviour, reduced cell volume and relative water content, and accumulation of Na+, Cl ¯, K+, proline and sugars when grown under salt stress and with its subsequent relief. The selection of this salt tolerant cell line has potential for contributing new genetic variability to plant breeders. Sugars are not only important energy sources and structural components in plants , they are also central regulatory molecules controlling physiology, metabolism, cell cycle , development, and gene expression in plants. The concentrations of glucose and fructose increased during salt stress and after relieving salt stress, at a rate closely corresponding to the increase in relative water content. Their accumulation was the earliest response detected during the removing of salt stress indicating that glucose and fructose may play important roles during salt-stress.
Alkaloids from three South African Crinum species.
(2000) Elgorashi, Esameldin Elzein.; Van Staden, Johannes.; Drewes, Siegfried Ernst.
The alkaloid content of three Crinum species namely C. bulbispermum, C. macowanii and C. moorei was investigated. The ethanolic extracts of C. bulbispermum yielded seven compounds. The new alkaloids 8α-ethoxyprecriwelline, N-desmethyl-8α-ethoxypretazettine and N-desmethyl-8β-ethoxypretazettine were isolated for the first time from a natural source. In addition, the known alkaloids bulbispermine, crinamine, 6-hydroxycrinamine and 3-O-acetylhamayne were isolated in this study. The ethanolic extracts of C. moorei were found to contain Iycorine, 1-O-acetyllycorine, crinine, 3-O-acetyllycrinine, epibuphanisine, powelline, crinamidine, undulatine, epivittatine, 1-epideacetylbowdensine, cherylline and the new alkaloids mooreine and 3-[4'-(2'-aminoethyl)phenoxy]bulbispermine. The alkaloids crinine, lycorine, bulbispermine, cherylline and hamayne were obtained from the ethanolic extracts of C. macowanii. In addition, the amine tyramine was identified during the isolation process. Dilute HCl solution extraction followed by GC analysis was used to investigate organ-to-organ and seasonal variation of alkaloids in each Crinum species, as well as the interspecific variation in these alkaloids over two consecutive years. Twelve alkaloids were identified, including crinine, epibuphanisine, powelline, crinamine, crinamidine, 6-hydroxycrinamine, 1-epideacetylbowdensine, 3-O-acetylhamayne, undulatine, Iycorine, 1-O-acetyllycorine and cherylline. Alkaloids were detected in all organs of C. moorei and C. macowanii. However, alkaloids were not detected in the leaves of C. bulbispermum. Organ-to-organ and seasonal variations in the total yield and total ring types of these alkaloids were noticed. Organ-to-organ and seasonal statistical variations were also detected for some of the individual alkaloids detected in each of these species. The results also showed that C. moorei had the highest levels of all individual alkaloids except crinamine when compared to C. bulbispermum and C. macowanii. Quantitatively, the detected alkaloids chemotaxonomically separated C. moorei from C. bulbispermum and C. macowanii. The results also indicated that C. macowanii is more closely related to C. bulbispermum. Qualitatively, Iycorine, 1-O-acetyllycorine, cherylline, crinamidine, 1-epideacetylbowdensine, crinine, crinamine and 3-O-acetylhamayne were detected in both C. moorei and C. macowanii, indicating the close relationship of these species.
The effect of charcoal on tissue morphogenesis in vitro.
(2000) Pan, Manjing.; Van Staden, Johannes.
The effect of activated charcoal, autoclaving and culture media on sucrose hydrolysis in tissue culture media was investigated. Activated charcoal acidified an aqueous sucrose (5%) solution and culture media by about 1 to 2 units after autoclaving . Sucrose hydrolysis in tissue culture media and/or aqueous sucrose (5%) solutions containing activated charcoal (buffered to pH 5.8) was dependent on both the hydrogen ion concentration (pH) and autoclaving. After autoclaving, 70%, 56% and 53% sucrose hydrolysis were respectively recorded in a 5.0% sucrose solution, Murashige and Skoog (MS) and Gamborg B5 (B5) liquid media in the presence of 1.0% activated charcoal, added before autoclaving . In the absence of activated charcoal, autoclaving resulted in about 20% of the sucrose being hydrolysed The adsorption of 2, 4-dichlorophenoxyacetic acid (2,4-D) by activated charcoal from methanol and aqueous solutions was determinated using HPLC. The amount of the added 2,4-D decreased in both methanol and aqueous solutions in the presence of activated charcoal, compared with those in the absence of activated charcoal. In methanol and aqueous solutions, activated charcoal used at the level of 0.1% significantly reduced 2,4-D. About 68.4% and 60.9% respectively of the added 2,4-D was adsorbed by activated charcoal (1.0%) from these solutions. The changes of inorganic elements in MS-salt solutions, in the presence of activated charcoal, were analysed by SEM-EDX. The concentrations of magnesium (Mg), calcium (Ca), iron (Fe) and zinc (Zn) deceased in the presence of activated charcoal, while the concentrations of potassium (K), copper (Cu), manganese (Mn), phosphorus (P), and sulphur (S) increased in the MS salt solution in the presence of activated charcoal compared with no activated charcoal in the medium. This suggests that activated charcoal adsorbed calcium, magnesium, iron and zinc and released copper, manganese, phosphorus and sulphur. Rooting occurred when 7-day-old seedling hypocotyls of Daucus carota L. Cape Market were placed on MS medium supplemented with 2,4-D, and IAN/NAA in the presence of activated charcoal. Hypocotyls did not produce roots on the 2,4-D containing media in the absence of activated charcoal. The roots were produced polarly on the NAA/IAA-containing media in the presence of activated charcoal. No-polarity of root formation was observed on media supplemented with NAA/IAA without activated charcoal. Different responses of hypocotyls to a series of 2,4-D concentrations (0.5, 1.0, 3.05.0, 8.0, and 10.0 mg l ¯¹) were observed on media supplemented with 0.02, 0.1 and 0.5% activated charcoal. In the NAA/IAA containing media in the presence of activated charcoal, root number per hypocotyl decreased. Root number perhypocotyl, on the media supplemented with NAA and IAA, increased when hypocotyls were pre-cultured on MS medium supplemented with 2,4-D (1.0 mg l ¯¹) for 2-3 days. When hypocotyls were pre-cultured on a 2,4-D containing MS medium for 5 days, embryos emerged from the hypocotyls directly on the medium supplemented with 2,4-D in the presence of activated charcoal. Addition of activated charcoal to MS medium supplemented with 2,4-D resulted in somatic embryogenesis of Daucus carota. Somatic embryos were not formed on the medium in the absence of activated charcoal. In suspension culture, the incorporation of 0.01 to 1.0% concentrations of activated charcoal to the MS medium, irrespective of 2,4-D, increased the number of somatic embryos produced. The maximum number of somatic embryos were produced with 1.0% activated charcoal. Further development of embryos of Daucus carota occurred on the media in the presence of activated charcoal, and the embryos subsequently regenerated normal plantlets. Abnormal somatic embryos followed the addition of 3.0% activated charcoal to the medium.
Cultivation of Combretum bracteosum (Hochst.) Brandis.
(2001) Koen, Kerry Jacqueline.; Van Staden, Johannes.
In maximizing South Africa's floral diversity, plant propagators have begun exploiting the rich array of indigenous plants, especially those with horticultural potential. Plants previously unavailable to the professional and amateur gardeners alike, are legally becoming common-place in nurseries. However, in promoting the trade of indigenous plants to nursery-owners, rapid, easy and cost effective methods of propagating these plants need to be established. Combretum bracteosum is one such indigenous plant, the aesthetic appeal thereof exhibits great potential for ornamentation, especially when flowering. In facilitating the introduction of Combretum bracteosum into nurseries, small gardens or even pots, investigations carried out aimed to determine and analyse quick and easy methods of propagating this plant. Of the various propagation techniques considered, only one, micropropagation, required specialized skill and training prior to carrying out the relevant procedures and protocols. The two other techniques used, which are accessible to most plant propagators, were seed germination and propagation from cuttings. Propagation by seed germination yielded less than optimal results from a commercial perspective. Although the hard pericarp surrounding the embryo did not impose any dormancy inducing mechanisms, such as the restriction of water uptake or the leaching of an inhibitory compounds, it did act as a mechanical barrier to the emerging radicle and roots. Recommendations for optimal Combretum bracteosum seed germination would be to remove the protective pericarp completely, incubate imbibed embryos in complete darkness at 25°C. After radicle emergence the germinating embryos could be moved into an alternating light: dark cycle. A more viable and simpler alternative to seed germination, was propagation by stem cuttings. Treating the cuttings with 10% and 50% or 75% of the commercially available Kelpak concentrate (using the Soak Method and Quick-dip Methods respectively), provided the most promising results, with the rapid development of roots and subsequent vegetative growth. Synthetic hormones such as IBA and NAA were also applied to the cuttings both alone or in combination however, although callus growth was profuse, root development was slow and unsubstantial, if any at all. Therefore, in recommending a protocol for the successful rooting of Combretum bracteosum cuttings taken during spring, summer or early autumn, the application of Kelpak at either 10% (Soak Method) or 50% (Quick-dip Method) of the full strength solution, is advised. Subsequent to hormone treatment, the cuttings still required attention with regard to nutrient supplementation as well as atmospheric moisture and temperature regulation. Success in generating Combretum bracteosum plantlets was obtained by germinating the seed in vitro as well as stimulating axillary shoot elongation from nodal explants. Placing the sterilized Combretum bracteosum embryo onto a nutrient rich basal medium (containing no hormones) was sufficient to stimulate 100% germination. The frequent poor availability of the seed may hamper the use of in vitro seed germination for commercial propagation purposes. The use of nodal explants from in vitro germinated stock plants, is a rapid and reliable means of generating a large seedling stock. Nodal explants excised from the newly developed shoot were subsequently placed onto 0.5 mg.ℓ ¯¹ BA which encouraged axillary bud elongation. After elongation, the lateral shoots were removed and placed onto a rooting medium (1.0 mg.ℓ ¯¹ IBA). The more mature nodal explants, collected from parent plants growing in vivo, required either a BA: NAA hormone combination or Kelpak to stimulate axillary shoot elongation, with the latter being most successful. Root initiation followed the protocol described above. Once rooted plantlets were hardened off they displayed a strong and vigorous growth, which is desirable from a commercial perspective. Upon maturity, the habit of many indigenous trees and shrubs could become too big for confined spaces such as the urban garden. Therefore, determining a means of modifying the plants' habit in order to maintain its suitability as a smaller garden plant was important. Treating the Combretum bracteosum plants with a 50 mg.ℓ ¯¹ paclobutrazol soil drench proved most successful, with the desired effects being visible within a few weeks of initial application. No negative morphological or developmental effects were noted on plants treated with the dwarfing agent, conversely however, the treated Combretum bracteosum plants were compact and bushy, with considerable visual appeal and aesthetic attractiveness.
Evaluation of anthelmintic, antiamoebic and antibacterial activity in traditional South African medicinal plants.
(2001) McGaw, Lyndy Joy.; Van Staden, Johannes.; Jäger, Anna Katharina.
Traditional medicine in southern Africa draws upon a vast selection of plants to treat gastrointestinal disorders such as diarrhoea and intestinal parasites. The evaluation of these plants for biological activity is necessary, both to substantiate the use of these plants by healers, and also a possible lead for new drugs or herbal preparations. After a survey of the existing ethnobotanical literature, plants used to treat stomach ailments such as diarrhoea, dysentery or intestinal worm infestations were selected and submitted to bioassays according to their traditional uses. Extracts of the chosen plants were made using the solvents hexane, ethanol and water, to ensure the extraction of compounds with a wide range of polarity. In total, 138 extracts were tested for antibacterial activity, 72 for anthelmintic activity, and 42 for antiamoebic activity. Antibacterial activity was evaluated using the disc-diffusion assay, and Minimal Inhibitory Concentration (MIC) values were determined using a microdilution assay. The extracts were tested against the Gram-positive bacteria Bacillus subtilis and Staphylococcus aureus, and the Gram-negative bacteria Escherichia coli and Klebsiella pneumoniae. Ethanolic extracts showed the greatest activity and Gram-positive bacteria were the most susceptible microorganisms. The free-living nematode Caenorhabditis elegans, which is morphologically similar to parasitic nematodes, was used in two different assays to evaluate anthelmintic activity. A microdilution technique was employed to investigate antiamoebic activity against the enteropathogenic Entamoeba histolytica, the causal organism of amoebic dysentery. These assays were suitable for the screening of a large number of extracts at one time. Several plants exhibited significant activity against these test organisms. Many species of plants belonging to the family Combretaceae are used in southern African traditional medicine against a variety of ailments, including abdominal complaints, bilharzia and diarrhoea. Extracts of powdered leaf material of 24 species belonging to the Combretaceae were prepared using the solvents ethyl acetate, acetone, methanol and water. These extracts were screened for anthelmintic activity. Significant activity was exhibited by C. apiculatum, C. hereroense and C. mossambicense. The most anthelmintic activity was shown by acetone extracts, followed by ethyl acetate, water and then methanol extracts. The aromatic rhizomes of Acarus calamus L. are used extensively in traditional medicine worldwide. They reportedly relieve stomach cramps and dysentery, and are used as anthelmintics. Rhizome extracts of A. calamus growing in KwaZulu-Natal, South Africa, exhibited anthelmintic and antibacterial activity in the initial general screening. Using bioassay-guided fractionation, the phenylpropanoid β-asarone was isolated from the rhizome. This compound possessed both anthelmintic and antibacterial activity. It has previously been isolated from A. calamus, and a related species, A. gramineus. Different varieties of A. calamus exhibit different levels of β-asarone, with the diploid variety containing none of the compound. Mammalian toxicity and carcinogenicity of asarones has been demonstrated by other researchers, supporting the discouragement of the medicinal use of Acarus calamus by traditional healers in South Africa. Schotia brachypetala was another plant to show good antibacterial activity in the initial screening. The roots and bark of S. brachypetala are used in South African traditional medicine as a remedy for dysentery and diarrhoea. The lack of pharmacological and chemical data on this plant prompted a further investigation into its antibacterial activity. The differences in activity of ethanol and water extracts with respect to plant part, season and geographical position were analysed. No extreme fluctuations in activity were noted. Two other Schotia species, S. afra and S. capitata, were included in the study, and both displayed good antibacterial activity. The storage of the plant, either as dried, ground plant material at room temperature, or as an extract residue at -15°C, had little effect on the antibacterial activity. Preparing the extracts from fresh or dry material also did not notably affect the activity. In general, the ethanolic extracts were more active than the aqueous extracts. The chemical profiles on TLC chromatograms were compared and found to be very similar in the case of ethanol extracts prepared in different months of the year, and from different trees. The extracts of the three species, and of the leaves stored under various conditions, as well as extracts prepared from fresh or dry material, also showed similar TLC fingerprints. However, various plant parts of S. brachypetala showed distinctly different chemical compositions. The leaves of S. brachypetala showed slightly higher antibacterial activity than the roots. Fractionation of the ethanol extract of the dried leaves using liquid-liquid partitioning and chromatographic techniques yielded 9,12,15-octadecatrienoic (linolenic) acid and methyl-5, 11,14,17-eicosatetraenoate. These fatty acids displayed antibacterial activity against the Gram-positive bacteria Bacillus subtilis and Staphylococcus aureus, and activity to a lesser extent against the Gram-negative Escherichia coli and Klebsiella pneumoniae. Linolenic acid is known to have antibacterial activity. The screening of plants for biological activity yielded valuable preliminary information about the plants used by traditional healers to treat gastrointestinal illnesses. The isolation of biologically active compounds from two highly active plants was achieved.
Micropropagation and acclimatization of Aloe polyphylla and Platycerium bifurcatum.
(2001) Chukwujekwu, Jude Chinedu.; Van Staden, Johannes.; Fennell, Catherine W.
Shoot cultures of Aloe polyphylla were initiated from young shoot explants of in vitro grown plants. The basal medium was MS medium (MURASHIGE and SKOOG, 1962), supplemented with 100 mgl ¯¹ myo-inositol, and 30 gl ¯¹ sucrose. Agar (0.8 %) was used as the gelling agent. Different cytokinins, singly or in combination with auxins (IBA and NAA), were tested for shoot proliferation activity. All the cytokinins tested (kinetin, zeatin, iP, and BA) gave a good shoot proliferation response. The optimal concentrations for shoot proliferation of each of the cytokinins tested were: zeatin (0.5 mgl ¯¹), kinetin (1.5 mgl ¯¹), iP (1.0 mg ¯¹) and BA (1.5 mgl ¯¹). In combination with auxins, the optimal combinations were kinetin/NAA (2.0/0.1 mgl ¯¹), kinetin/lBA (1.5/1.0 mgl ¯¹), zeatin/lBA (1.0/0.5 mgl ¯¹), zeatin/NAA (1.0/1.0 mgl ¯¹), BA/IBA (1.0/1.0 mgl ¯¹), BA/NAA (1.5/0.1 mgl ¯¹). Although it gave the highest number of shoots per explant, BA was responsible for hyperhydricity. Temperature and sucrose also influenced shoot proliferation. The optimal temperature was 25°C, while 30 gl ¯¹ was the optimal concentration of sucrose for shoot proliferation. Plants rooted well in plant growth regulator-free MS medium. Amongst the potting mixtures tested, soil: sand: vermiculite (1:1:1 v/v) was the best with 98 % plantlet survival. In the second part of this project, Platycerium bifurcatum cultures were established using leaf explants. The basal medium was MS medium (MURASHIGE and SKOOG, 1962), supplemented with 100 mgl ¯¹ myo-inositol and 30 g l ¯¹ sucrose. For bud initiation, 1.0 mgl ¯¹ BA was used, while 0.8 % agar was used as the gelling agent. Three different strengths of MS medium (full, half, and one-quarter strength) without plant growth regulators were tested for further bud growth and development. Half-strength MS proved to be the best for further bud growth and development. Rooting was best achieved in one-quarter strength MS medium without plant growth regulators. In vitro grown plantlets were successfully acclimatized using peat as the potting medium.
Breeding systems of some cold tolerant eucalyptus species.
(2002) Jones, Wayne Russell.; Van Staden, Johannes.
Seasonal flowering times for Eucalyptus nitens, E. dunnii, E. smithii, E. macarthurii and E. grandis were evaluated in clonal grafted orchards located at the Shaw Research Centre (SRC) in KwaZulu-Natal, South Africa. The orchards are situated at 29° 29 'South, 30° 11 'East at 1100 m above sea level. The climate is cool (MAT 16.7° C) with a January mean monthly maximum of 25.8° C and July minimum of 4.4° C. An estimated mean annual rainfall of 998 mm and median annual rainfall of 899 mm has been reported (PALLETT and MITCHELL 1993). It is evident that the different species flower consistently from one year to the next during the same period with similar mean flowering peaks. Long reproductive sequences where identified for all species relative to E. grandis, particularly E. smithii and E. dunnii. Paclobutrazol was used to initiate flowering to facilitate the study of the breeding systems of the different species. When applied as a soil drench during early summer an increase in the flower bud production in E. nitens, E. smithii and E. grandis was achieved. The use of various cytochemical methods to test pollen viability, were shown to be mere indicators of potential viability and lack the reliability for adequate testing of stored pollen. From the range of in vitro, pollen viability studies the most successful media for all species tested was 30 % sucrose with 150 mg r¯¹ boric acid. Without boric acid in the media, the response after 24 h was significantly poorer (p<0.001). Significant differences (p<0.05) in the area of pollen grains were found between and within species. There was no significant difference between E. dunnii and E. macarthurii at the species level. Pollen of E. smithii, E. grandis and E. nitens were significantly smaller than that of both E. dunnii and E. macarthurii. From isolation experiments which limited potential pollinators it is apparent that a reduction of pollinators not only leads to poorer capsule survival but also poorer seed set. Following an initial survey of pollinators of E. grandis, very few insects were recorded relative to surveys conducted in the natural habitats with indications that an association does exist between the presence of active pollinators and temperature. The potential of flowers to set seed is clearly demonstrated by the difference between open pollinated flowers and controlled pollinated flowers following intraspecific crosses where differences in seed yield per capsule are very often more than double for species such as E. nitens and E. macarthurii. Similarly with interspecific crosses, higher seed yields are extracted from crosses between closely related species. An extensive survey of orchards clearly demonstrates that E. nitens has the lowest clean seed recovery (13.8 %) significantly less than that of E. smithii (18.0 %) and both E. macarthurii and E. dunnii at 26.1 % and 26.0 % respectively.
Crinum moorei : propagation and secondary metabolite production in vitro.
(2002) Fennell, Catherine W.; Van Staden, Johannes.
As an alternative to conventional methods of vegetative propagation, micropropagation attracts much attention, because the levels of multiplication are increased, somaclonal variation is limited and disease-free material can be obtained. The technique is invaluable to the conservation of Crinum species belonging to the Amaryllidaceae which, as a group, possesses several biological features that make them particularly vulnerable. This is in addition to other problems relating to their value as horticultural material, traditional medicines and sources of phytochemicals of interest to medical science. Two in vitro systems are widely used for the propagation of amaryllidaceous species; regeneration from young floral stem explants and from twin-scales excised from bulbs. Although plantlet regeneration could be obtained from peduncle explants of Crinum moorei, a complex of factors including: the age of the floral stem; explant position and; hormonal factors, limited growth. Callus production was poor and indirect organogenesis could not be achieved. Twin-scales were used for the induction of somatic embryos. Morphologically these were different depending on the concentrations of 2,4-D and BA used in the induction medium. Although some of them went on to germinate, the use of somatic embryos for large-scale culture is not an efficient micropropagation route, owing to the low frequency of both embryo production and germination and to the long culture times. Regeneration of shoots and bulblets could, however, be readily induced from twin-scales using a series of modified MS media, and this despite the fact that explants from the bulb were more difficult to decontaminate than the above ground parts. Shoots arose in the axes of the twin-scales close to the basal plate. Initiation was greatest on a basic Murashige and Skoog medium, containing 4 g ℓ ¯¹ sucrose, and in the dark. No hormones were required. At high concentrations, the hormones stimulated abnormal organogenesis. Bulbing of the shoots was further enhanced using higher than normal levels of sucrose i.e. 6% and 5 g ℓ ¯¹ activated charcoal. The response was also influenced by the size of the twin-scale and its position in the parent bulb. Greater numbers of bulblets with larger diameters developed in large twin-scales from an intermediate position between the inner and outer scales. Furthermore, light, and a temperature of 25°C were required for normal bulblet development. Bulblets grown in this manner were used as a source of secondary explants by splitting them vertically in half. The addition of 10 mg ℓ ¯¹ BA resulted in multiple shoot development. In a liquid-shake culture system, this same multiplication medium induced the formation of meristemoid clusters whose rates of proliferation were higher than that achieved for shoot multiplication on either solid or static liquid media. The advantage of using meristematic clusters is that shoot hyperhydricity is avoided. Furthermore, the clusters can be mechanically separated; making the system ideal for automated plant production. Shoot morphogenesis, followed by the formation of bulblets occurred on solid MS media containing activated charcoal or high concentrations (6%) of sucrose. The induction of bulblets by sucrose was, however, slower, which may be beneficial for long-term storage and conservation ex situ. Compared to smaller bulblets, bulblets with a diameter of approximately 9 mm, acclimatized readily and grew rapidly after transferring them to the soil in greenhouse conditions. Biotechnological processes such as cell and tissue culture provide an ideal system for producing secondary metabolites, especially where their production in situ is hampered by poor resource availability or when chemical synthesis is difficult. In vitro produced Crinum moorei bulblets were found to contain nine alkaloids of the Amaryllidaceae type; three of which were released into the culture medium. Light was essential for alkaloid biosynthesis while the inclusion of BA and activated charcoal stimulated the production of specific alkaloids.
An investigation of the medicinal properties of Siphonochilus aethiopicus.
(2002) Light, Marnie Elizabeth.; Van Staden, Johannes.; Jäger, Anna Katharina.
Siphonochilus aethiopicus (Schweinf.) B.L. Burtt (Zingiberaceae), commonly known as wild ginger, is a highly sought after plant for use in traditional medicine in South Africa. Over-exploitation of this medicinal plant has resulted in regional extinction in the wild. As a result, there is great interest in the medicinal properties of S. aethiopicus, and as a plant for small scale cultivation to increase the supply for use in traditional medicine. Water, ethanol and ethyl acetate extracts were prepared from the leaves, rhizomes and roots of S. aethiopicus. These extracts were tested for in vitro anti-inflammatory activity in the cyclooxygenase-1 (COX-1) and cyclooxygenase-2 (COX-2) assays, and in the microdilution antibacterial assay. The aqueous extracts showed no significant prostaglandin synthesis inhibition in the COX-1 and COX-2 assays. The ethanol and ethyl acetate extracts of the leaves showed the highest levels of activity at a concentration of 250 µg ml¯¹ per test solution, in both the COX-1 and COX-2 assays. The ethanol and ethyl acetate extracts of the rhizomes and roots also had moderate levels of activity in the COX-1 assay. These results provide some evidence for the rational use of S. aethiopicus in traditional medicine for anti-inflammatory purposes. In the microdilution antibacterial assay, no inhibitory activity against the test bacteria was detected with the aqueous extracts. The ethanol and ethyl acetate extracts tested showed greater antibacterial activity at minimal inhibitory concentrations ranging from 0.78 to 3.13 mg ml¯¹ against the gram-positive bacteria (Bacillus subtilis, Staphylococcus aureus) than the Gram-negative bacteria (Escherichia coli, Klebsiella pneumoniae). No distinct differences were observed between the ethanol and ethyl acetate extracts, or between the different plant parts. A serial extraction of S. aethiopicus rhizome material was conducted and the extracts were tested in the COX-1 assay and the microdilution assay as a preliminary investigation for a bulk extraction. The hexane and ethyl acetate extracts gave slightly higher COX-1 inhibition than the ethanol extract. No distinct differences were observed in the microdilution assay. A bulk ethyl acetate extract of S. aethiopicus rhizome material was prepared, yielding 6.3 g of a thin orange oil. Vacuum liquid chromatography (VLC) was used to fractionate ≈4 g of the extract. The VLC fractions were evaluated using thin layer chromatography (TLC) and a bioautographic assay, using S. aureus as a test organism. The fractions were also tested in the COX-1 assay. The bioautography revealed a number of compounds which exhibited antibacterial activity. Fraction C was purified further using preparative TLC, and 24.9 mg of a pure compound from R,0.54 (toluene:ethyl acetate 93:7) was isolated. The structure of the compound was elucidated from nuclear magnetic resonance (NMR) spectra, and mass spectroscopy of the compound was also recorded. The compound was identified as the sesquiterpenoid furanoeremophil-2-en-1-one, which is structurally identical to the recently reported compound 4aαH-3,5α,8aβ-trimethyl-4,4a,9-tetrahydro-naphtho[2,3-b]-furan-8-one. The compound showed only a very minimal bacteriostatic effect in the microdilution assay. S. aethiopicus plants were harvested before and after seasonal senescence. Ethanol extracts were prepared from fresh or dried material of the leaves, rhizomes and roots, and tested in the COX-1 assay and the microdilution assay TLC fingerprints of the various extracts were also prepared. No noteworthy changes in COX-1 inhibition, due to senescence, were observed with extracts prepared from fresh material, although there did appear to be a slight decrease in activity in the α-roots and an increase in the β-roots after senescence (fresh and dry). A decrease in the antibacterial activity of the leaves and an increase in the antibacterial activity of the α-roots was observed after senescence. These results suggest that the time of harvest may only have a minimal influence on the degree of anti-inflammatory and antibacterial activity.
An evaluation of plants used in eastern Nigeria in the treatment of epilepsy and convulsion.
(2002) Ogbonnia, Steve Okwudili.; Van Staden, Johannes.
Schumanniophyton magnificum and Glypheae brevis are important medicinal plants growing wild in the West African rain forest. They are used in folkloric medicine in the treatment of epilepsy and convulsion as well as for some other diseases. The purpose of this work was to investigate the aspect of folkloric use in order to support folkloric claims and document the findings. The extracts were prepared from ground plant material by a continuous extraction method. Five hundred grams of ground plant material were continuously de-fatted with 2 L petroleum ether (60°- 80°) in a Soxhlet apparatus for about 5 h. The resulting marc was dried and the chemical constituents extracted hot in a Soxhlet apparatus for about 8 to 10 h with 2 L aqueous ethanol (70%). The efficacy of the extraction method was confirmed using standard bioassays and phytochemical analyses. The anti-convulsant activity of the crude extracts was evaluated in vivo against chemically induced convulsions using three different animal models, namely the strychnine, the picrotoxin and the pentylenetetrazole tests. The acute and delayed toxicity test results showed that in all the animal models investigated very high doses, about four times higher than the protective doses of the extracts, were required to kill 50% of the population of animal used. Phytochemical assays of the extracts indicated the presence of alkaloids only in S. magnificum root extract and glycosides in extracts from both species. The glycosides were positive to Baljet, Xanthydrol and Keller-Kiliani tests for cardiac glycosides. S. magnificum and G. brevis chemical constituents were initially isolated with a sequential fractionation method starting with a highly non-polar solvent and gradually increasing to a more polar solvent. The fractions were pooled on the basis of TLC similarity profiles when viewed under the UV light at 254 and 366 nm and were found to have two and four major UV absorbing fractions for S. magnificum and G. brevis respectively. Radio-receptor binding tests were used to assess the anti-convulsant activities of the hydro-alcoholic crude extracts, the organic and aqueous fractions of the crude extracts, partially purified components and pure components in in vitro tests against some standard GABA[A] receptor antagonists, muscimol and isoguvacine respectively. The anti-convulsant activities resided in the aqueous fractions of the hydro-alcoholic crude extracts of both plants. The purely organic fractions of G. brevis demonstrated no activity while all the fractions of the aqueous component demonstrated some degree of activity. The anti-convulsant activity of S. magnificum was found only in one fraction-Fraction 1. This Fraction was further investigated and one of the components appear to be responsible for the activity. The structure of the active constituent was 5,7dihdroxy-2 methylbenzopyran-4-one, a noreugenin. A second bioactive compound, schumanniofoside, was identified from Fraction M[5.2] from S. magnificum.
Factors influencing controlled pollination of Pinus patula.
(2002) Nel, André.; Van Staden, Johannes.
A study of factors contributing to successful controlled pollinations of Pinus patula Scheide et Deppe was undertaken. The pollen morphology of P. patula, P. oocarpa, P. greggii, P. elliottii, P. tecunumanii, P. caribaea and P. radiata was studied and the mean size of pollen grains was determined for these species. Clonal differences in pollen size within P. patula were also determined. The impact of pollen management practices on pollen viability was highlighted and a protocol for in vitro pollen viability testing of P. patula and other pine species was determined. A one percent agar solidified distilled water medium gave the best germination results after 72 hours incubation at 30 °C for a number of different Pinus species and P. patula clones. The addition of boric acid increase germination, although not significantly. The addition of sucrose to the pollen germination medium had a negative effect on pollen germination of P. patula, P. greggii and P. caribaea. Re-hydration of pollen for two hours prior to in vitro germination testing improved germination significantly. Incubation temperatures of above 38 °C were detrimental to germinating pollen grains. Stored pollen with low humidity (less than 10 %) of P. patula, P. greggii and P. caribaea could tolerate temperatures of up to 70 °C while still retaining some level of viability. The initiation and growth of the pollen tube was also studied and differences in pollen tube-lengths germinated at 30 °C for 72 hours were found between species studied. Flowering of different P. patula clones was monitored over seven seasons. Flowering periods varied in length between 4 and 14 days amongst five clones over the different seasons. The best cone-survival after controlled pollination was achieved with breathable micro-fibre material. Seed yields were also highest when breathable material was used for controlled pollination. The role of pollen viability in controlled pollination was also determined in pollination studies with low viability resulting in low cone survival and low seed yields. The temperature and relative humidity inside isolation bags were monitored and temperatures above 40 °C were reached inside bags constructed of nonbreathable material. These temperatures were lethal to pollen germinating in vitro. Relative humidity of between 80 and 100 % was maintained in non-breathable bagging material, constituting a risk of diseases causing cone-mortality. The application of fungicide before, during and after controlled pollination was ineffective in improving cone survival.
In vitro propagation of enset (Ensete ventricosum (Welw.) Cheesman)
(2003) Chimsa, Mulugeta Diro.; Van Staden, Johannes.
Enset (Ensete ventricosum) is an important food crop that is cultivated in Ethiopia. In vitro propagation: zygotic embryo culture, shoot tip culture, callus culture and somatic embryogenesis were investigated for this crop. Forty four percent germination of excised embryos of stored seeds of enset genotype Oniya was obtained when the embryos were placed horizontally on the medium that was supplemented with 0.5 mg l ̄¹BA and 0.2 mg lˉ¹ lAA, after germination of intact seeds could not be achieved. Over 85% embryos, excised from seeds of two wild enset genotypes shortly after seed harvest, were germinated on MS medium with and without plant growth regulators (PGRs). Addition of 5 g lˉ¹ activated charcoal (AC) prevented blackening of germinating zygotic embryos and improved in vitro growth of the seedlings. Contamination of culture was reduced to a tolerable level (below 7%) when eight to ten mm long shoot tips from greenhouse-grown suckers were decontaminated for 15 min in 3.5% sodium hypochlorite and rinsed three times with sterile distilled water. However, this contamination method was not sufficient to decontaminate shoot tips from field-grown suckers. Avoiding injury to the apical domes of the shoot tips at the initiation stage, addition of 7 g lˉ¹ AC to the medium and initiation of the shoot tips for two months before splitting for multiplication considerably decreased blackening and formation of callus for genotype Keberia and Mazia. Three to five normal shoots per shoot tip were produced when halved shoot tips from in vitro germinated seedlings of enset genotype Oniya was cultured on gelled and in liquid medium and when halved shoot tips of greenhouse-grown genotype Mazia were cultured in a liquid medium. One to two shoots/buds per shoot tip were regenerated from halved shoot tips of greenhouse-grown suckers on gelled medium for genotypes Keberia, Oniya and Mazia. The presence of BA did not result in a significant increase in the number of shoots per shoot tip both with intact and halved shoot tips. Therefore, wounding the apical dome by splitting appears necessary to release lateral buds. Both blackening of explants in the presence of AC and contamination of culture in vitro were not observed with in vitro grown plant material. Callus was produced on MS medium supplemented with 0.5 mg lˉ¹ BA + 0.2 mg lˉ¹l lAA from zygotic embryos of stored seeds of enset. Adventitious shoots from the callus were regenerated in the light on MS medium lacking PGRs. Embryogenic callus was obtained from shoot tips of genotype Mazia on MS medium with 0.5 mg lˉ¹ BA + 0.2 mg lˉ¹ lAA + 0.2 mg l ˉ¹2, 4-D. A large number of somatic embryos were produced from the embryogenic callus. The results of these studies can be used in enset clonal multiplication, conservation of germplasm and breeding of the crop.
Cytokinins and the germination of Tagetes minuta L.
(2003) Gold, John David.; Van Staden, Johannes.; Stirk, Wendy Ann.
Tagetes minuta L. is a weedy herb that has been a rich source of fragrant oils, used as in the perfume and flavour industry. T. minuta achenes germinate erratically under field conditions. However, at the optimal germination temperature of 25 °C, 100 % germination is attained within 48 h of imbibition. The achenes are thermoinhibited at 35 °C. The aims of this project were to assess the role of cytokinins (CKs) in normal germination at 25 °C, and to investigate the factors that regulate thermoinhibition at 35 °C. CKs were extracted from achenes germinating at 25 °C at 0, 24; 48; 96 and 144 h after imbibition. Two different purification techniques were used, namely Dowex cation exchange resin followed by paper chromatography, or high performance liquid chromatography (HPLC). CK-like activity was tested with the soybean callus bioassay. With both techniques, a peak in CK-like activity appeared 24 h after imbibition, which coincides with the period during which most of the achenes germinated. For quantitative analysis, HPLC\mass spectrometry (MS) techniques were used. The isoprenoid CKs were far more abundant in T. minuta achenes than the aromatic CKs. cis-Zeatin (cZ) and its derivatives were the most abundant CKs. In total, 19 CK compounds were detected, including 4 free bases and a number of corresponding conjugates. Benzyladenine (BA) was the only aromatic CK detected. There was no common time at which active free base maximal concentrations were detected, suggesting that different CKs may have specific roles in the germination process, and thus peak at different times. This in turn suggests that germination is not a single process, but rather a correlative process involving a number of events, with specific CKs having specific roles relating to these correlative events. There is sufficient evidence obtained from both the soybean callus bioassay and HPLC/MS analysis to suggest that CKs have an active role in T. minuta germination. A decline in free BA during germination without corresponding conjugation, suggests that BA is actively used in early germination processes, possibly in the stimulation of DNA synthesis. Secondly, there was a distinct dihydrozeatin (DHZ) peak obtained at 24 h. Roughly 75 % of the achenes germinate between 16 and 26 h, thus it is likely that DHZ has an active role during the germination of T. minuta. Although CKs are probably not involved in the breaking of dormancy per se, the distinct peak in CK-like activity obtained in the bioassays, 24 h after imbibition, suggests that CKs have an active role in the germination of T. minuta. With respect to the regulation of thermoinhibition, a number of exogenous treatments were applied, including hormones [gibberellins (GA₄₊₇), abscisic acid (ABA), ethylene and a number of CKs], adenosine triphosphate (ATP) and incubation in 100 % oxygen. ABA was extracted from thermoinhibited and germinating achenes to assess the role of ABA in thermoinhibition and germination. While exogenous 0.1 mg L¯¹ GA₄₊₇ application slightly improved normal germination at 25°C, no treatments were effective in alleviating thermoinhbibition in T. minuta achenes. Thermoinhibition in T. minuta achenes may be under hormonal regulation, as there is strong evidence for the role of ABA in the maintenance of dormancy and thermoinhbition. High ABA levels were found in dry control samples. Additionally, exogenous ABA application inhibited normal germination, and the commencement of germination was accompanied by a decrease in endogenous ABA levels. A number of experiments relating to the imposition of thermoinhibition were carried out. Thermoinhibition appears to be very rapidly imposed. Germination is rapidly inhibited following shifting to higher thermoinhibitory temperatures, even after prolonged exposure to optimal germination temperatures. Results suggest active de novo biosynthesis of ABA in thermoinhibited achenes. Active biosynthesis of ABA during thermoinhibition suggests that this phytohormone is essential in the maintenance of thermoinhibition of T. minuta achenes. It thus appears that ABA is synthesized in the achenes in response to elevated temperatures that are unfavourable for germination to proceed. Unfavourable environmental conditions result in an achene-mediated inhibition of germination, which appears to be initiated and maintained by elevated levels of endogenous ABA.
Medicinal properties and in vitro responses of Mayenus senegalensis (Lam.) exell.
(2003) Matu, Esther Ng'endo.; Van Staden, Johannes.
No abstract available.
Differential gene expression in germinating and thermoinhibited achenes of Tagetes minuta L.
(2003) Hills, Paul Norman.; Van Staden, Johannes.
When imbibed at their optimum germination temperature of 25°C, achenes of Tagetes minuta L. germinate over a period of approximately 48 h. At temperatures of between 35°C and 39°C, the achenes do not germinate but enter into a state of thermoinhibition. These supra-optimal conditions do not harm the achenes, however, and when the temperature is reduced below 35°C radicle emergence may be observed within 4 h. Achenes which have been thermoinhibited for periods of 24 h or more show "accelerated germination" which takes only 24 h, although the actual germination curve is identical to that of normally germinated achenes. This suggests that the achenes are metabolically active at thermoinhibitory temperatures and undergo most of the processes of normal germination, but that at some point any further development is halted, preventing radicle emergence. When the temperature is reduced, this block on germination is removed and since the achenes are already primed for germination, this occurs within a short time. An analysis of the proteins produced by germinating and thermoinhibited achenes was conducted using SDS-polyacrylamide gel electrophoresis (SDS-PAGE). This procedure was able to resolve approximately 40 different protein bands, but no differences were observed between thermoinhibited and germinating achenes. Two dimensional polyacrylamide gel electrophoresis (20-PAGE) was able to resolve approximately 200 individual polypeptides. The vast majority of polypeptides in T. minuta achenes are acidic, although the number of neutral to basic polypeptides increases as germination progresses. Ten polypeptides were identified which were specific to thermoinhibited achenes. These formed two distinct groups on the twodimensional gels. The larger group contained seven proteins, ranging in size from 22 kDa to 26.7 kDa and with isoelectric points of between 3.0 and 4.0. The smaller group contained three polypeptides with molecular weights of about 14 kDA and a pi of approximately 3.0. These polypeptides were all extremely specific to thermoinhibited achenes and declined rapidly when the incubation temperature was reduced, in a manner which correlated with an increase in the germinability of the achenes. Several characteristics of the expression of these polypeptides were similar to characteristics of embryo-dormancy in seeds where dormancy is thought to be actively imposed by the expression of specific dormancy-associated genes. This, along with the very tightly-regulated nature of these 10 polypeptides, suggests that thermoinhibition in T. minuta may be regulated through gene expression and that these ten polypeptides may represent the products of genes responsible for preventing radicle emergence at unfavourable temperatures. Since these polypeptides were only resolved using silver-staining and could not therefore be used for amino acid sequence analysis, this hypothesis was further investigated using differential display of mRNA to isolate genes which are expressed specifically in thermoinhibited achenes. A large number of cDNA fragments which were specific to either germinating or thermoinhibited achenes were identified and extracted from the differential display gels. Those cDNAs specific to the thermoinhibited achenes were taken for further analysis. Of the 62 fragments excised from the gels, 25 could be reamplified to generate single bands of the correct size on agarose gels. A further 22 cDNAs produced multiple bands, where one band was much brighter than the others and correlated with the size of the original fragment. Thirteen of the cDNAs which' generated single bands were cloned into the plasmid vector pGEM®-T Easy and transformed into either Escherichia coli JM109 or E. coli XL1-Blue. Recombinant colonies were identified using blue-white colour selection and the presence of the insert confirmed by colony blotting and restriction analysis. Three clones were chosen for each of the cDNAs. Reverse northern analysis confirmed that all 39 clones were specific to the mRNA pool of thermoinhibited achenes. High quality sequence data were obtained for 27 of the cDNA samples, the remainder appeared to have been degraded in transit. Alignment of the various sequences revealed that a total of 14 different sequences had been cloned, indicating that several of the bands isolated from the differential display gels contained multiple sequences. Electronic homology searches tentatively identified three of the sequences, whilst the remainder did not show significant homology to any known sequences. Of the cDNAs identified in this way, one may encode a plant transcription factor-like or nuclear RNA-binding protein whilst the other two may encode an RNase-L Inhibitor-like protein and a miraculin homologue. The potential roles of such genes in the imposition or maintenance of the thermoinhibited state are discussed. Although further research needs to be conducted to isolate full length cDNA sequences and to determine their exact expression patterns in germinating and thermoinhibited achenes, these results are consistent with the hypothesis that thermoinhibition in T. minuta achenes is under positive genetic control in a manner analogous to embryo dormancy. This thesis represents the first molecular study of thermoinhibition as well as the first report of active control over this phenomenon in any species. Since thermoinhibition, unlike dormancy, can be rapidly imposed and released under strictly controlled conditions without the need for any dormancy breaking treatment, T. minuta achenes represent an excellent model system for studies on the molecular control of seed germination.
Anti-bacterial and anti-inflammatory activity of medicinal plants used traditionally in Lesotho.
(2003) Shale, Thato Lucy.; Van Staden, Johannes.; Stirk, Wendy Ann.
A significant potion of the population in Lesotho relies on traditional medicine to meet its health care requirements. Traditional healers and herbalists were interviewed from Qacha's Nek (Highlands) and Mohale's Hoek (Lowlands) districts in Lesotho on plants used by the Basotho in traditional remedies. Fifteen plants were reported to be used for bacterial infections while thirteen plants were used for diseases associated with inflammation . Plant roots were most often used to make water extracts. Mainly high altitude plants are used with lowland healers obtaining most of their plant material from the highlands, either by collecting them or buying them from highland gatherers. Leaves and roots of plants used to treat bacterial infections were extracted with hexane, methanol and water and the respective extracts screened at 100 mg ml¯¹ for anti-bacterial activity using the disc diffusion bioassay. Seven species displayed very high anti-bacterial activity against both Gram-positive and Gram-negative bacteria. A number of plant extracts had medium inhibitory activity, mostly against Gram-positive bacteria. This activity was mainly found in the root extracts. Six of the thirteen plants screened for anti-inflammatory activity using the cyclooxygenase-1 (COX-1) bioassay had activity above 90%. Hexane and methanol extracts were the most active while water extracts usually had lower activity. Malva parviflora, Eriocephalus punctulatus and Asparagus microraphis exhibited high anti-inflammatory activity from hexane, methanol and water extracts made from leaf and root material. High anti-bacterial activity was also recorded from M. parviflora and E. punctulatus hexane, methanol and water extracts. An investigation on seasonal variation and plant part substitution in medicinal activities for these plants was carried out. Extracts of M. parviflora collected between June 1999 and July 2001 showed variation in anti-bacterial activity. Extracts made from leaves and roots inhibited the growth of both Gram-positive and Gram-negative bacteria. More bacterial strains were inhibited by extracts made from roots collected in cooler months. However, a trend in seasonal activity was not evident for either the roots or leaves because there was no detection of activity in some of the extracts made within the same months or seasons of the adjacent years. Variation in anti-inflammatory was detected for M. parviflora extracts. E. punctulatus leaf extracts did not exhibit any seasonal variation in anti-bacterial activity. Anti-inflammatory activity of E. punctulatus showed seasonal variation with the highest activity noted when material was collected during the cooler months and a decline in activity when collections were made during the warmer months. Hexane, methanol and water extracts made from leaves and roots of A. microraphis did not show any seasonal variation in anti-inflammatory activity. Thus, M. parviflora and E. punctulatus should be collected during the cooler months while A. microraphis can be collected throughout the year. Traditional healers, herbalists and vendors need to be encouraged to use aerial parts in substitution of ground parts which are reported to be highly utilized. Effect of storage on anti-bacterial and anti-inflammatory activities of M. parviflora, E. punctulatus and A. microraphis were monitored. Dried, ground leaf and root material of the three plants was stored in a cold room, at room temperature and in the Botanical Garden where the material was exposed to high and large changes in temperature. Dried hexane and methanol extracts made from leaves and roots of these plants were stored in a cold room and at room temperature. Initially, storage of the plant material under the three storage conditions caused an increase in antibacterial activity of the hexane, methanol and water extracts made from leaf and root material of M. parviflora and E. punctulatus. Storage for a longer period resulted in a decrease in inhibitory activity. TLC fingerprints developed from hexane and methanol extracts made from M. parviflora and E. punctulatus stored in a cold room and at room temperature showed a consistent number and colour of spots during the initial storage period. Prolonged storage resulted in a decline in the number and colour of detected spots. The stored hexane and methanol extracts made from leaves and roots showed a similar trend of increases and decreases in anti-bacterial activity as well as changes in spots with the storage of the extracts. Testing of the effect on anti-inflammatory activity of hexane, methanol and water extracts made from leaves and roots of M. parviflora, E. punctulatus and A. microraphis showed no change in inhibitory activity of hexane extracts obtained from the material and the extracts stored at the three storage conditions. Methanol and water extracts made from leaves exhibited an increase in activity with prolonged storage. Generally, the stability of the inhibitory activity was longer for the stored dried material than the plant extracts. Isolation of biological active compounds from M. parviflora was not successful due to loss in anti-bacterial activity as a result of collection of plant material from a different locality. Anti-inflammatory compounds could not be isolated due to insufficient amount and the synergistic effect of the active compounds . The purified compounds exhibited loss of activity following HPLC purification which then re-appeared upon recombining the fractions. A number of compounds were detected from essential oils of E. punctulatus using GC. Fractions containing these compounds gave positive anti-bacterial activity in the disc-diffusion , bioautographic and MIC bioassays as well as high anti-inflammatory activity with COX-1 and COX-2 anti-inflammatory bioassays. No anti-inflammatory compounds were isolated from A. microraphis.
Root-stimulating activity from various gelling agents used in tissue culture.
(2003) Arthur, Georgina Dede.; Van Staden, Johannes.; Stirk, Wendy Ann.
Extracts of gelling agents have been shown to stimulate rooting and this study was initiated to investigate the presence of root stimulating substances in gelling agents. After screening a number of gelling agents, four were selected, namely; Agar Bacteriological, Agar Commercial Gel, Difco Bacto Agar and Gelrite were selected and examined for the presence of root-stimulating substances using mungbean bioassay. Water extracts of Agar Bacteriological, Agar Commercial Gel and Difco Bactol Agar stimulated rooting of mungbean cuttings. Addition of Charcoal neither reduced nor increased rooting produced by the water extract of the first two agars but when added in conjunction with Difco Bacto Agar rooting was reduced. Autoclaving, however reduced rooting in extracts of the gelling agents. The possibility that root-stimulating substances may not be the same in all the gelling agents can not be excluded. Extraction of Gelrite with water was problematical and was therefore excluded. IBA solution and water extracts of the gelling agents separately promoted good rooting in mungbeans cuttings. Rooting in extracts of autoclaved frozen-thawed gelling agents was poor, however, IBA + gelling agents gave high rooting at the 100% concentration and this could possibly be due to an additive effect of the IBA. Addition of charcoal reduced rooting significantly in extracts of IBA + gelling agents. Using 80% acidic methanol, reasonable levels of rooting substances were obtained from the residue extract of this complex (IBA + gelling agent+charcoal) of all the gelling agents except Gelrite indicating that root-promoting substances were adsorbed by charcoal. The low rooting in the presence of the Gelrite extract was attributed to the matrix of the polymer of the Gelrite. Ethyl acetate fractionated extracts (EA-pH 8.0; EA-pH 3.0; and Aqueous) obtained from the four gelling agents stimulated rooting indicating the presence of numerous root promoting substances. Gelrite gave good rooting with both the 50 and 100% concentrations of all the fractions. Purified water and ethanol extracts of the gelling agents exhibited auxin-like activity when separated by paper chromatography and compared with IBA and IAA standards. Using HPLC, IAA was quantified in all the gelling agents with Difco Bacto Agar and Agar Commercial Gel having the highest IAA concentration and Gelrite the lowest IAA concentration. IAA concentration in Agar Bacteriological was a third of the level detected in Difco Bacto Agar. The information from this work may enable researchers to consider gelling agents as sources of auxin-like compounds and other plant hormones as well as support media for use in tissue culture procedures and also increase the enthuse for further research into the nutrient types and levels in gelling agents.
Genetic transformation and micropropagation of Thapsia garganica L. - a medicinal plant.
(2003) Makunga, Nokwanda P.; Van Staden, Johannes.; Jäger, Anna Katharina.
No abstract available.

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