Anthocyanins in berries of Maqui (Aristotelia chilensis (Mol.) Stuntz)

The anthocyanin composition of berries of Maqui [Aristotelia chilensis (Mol.) Stuntz] was determined by HPLC with photodiode array and MS detection. Eight pigments corresponding to the 3-glucosides, 3,5-diglucosides, 3-sambubiosides and 3-sambubioside-5-glucosides of delphinidin and cyanidin were identified, the principal anthocyanin being delphinidin 3-sambubioside-5-glucoside (34% of total anthocyanins). The average total anthocyanin content was 137.6 +/- 0.4mg/100g of fresh fruit (211.9 +/- 0.6 mg/100g of dry fruit). The relative high anthocyanin content and the important presence of polar polyglycosylated derivatives makes the fruits of A. chilensis an interesting source of anthocyanin extracts for food and pharmaceutical uses.     

Physiology of effects of temporary immersion bioreactors on micropropagated pineapple plantlets

Summary Temporary immersion bioreactors are an efficient tool for plant mass propagation because they increase multiplication rate and plant quality. Little knowledge is available on the ecosystem and physiological behavior of plantlets when using this new culture technique. In order to evaluate the effects of the conditions on physiological change of pineapple plantlets, a factorial experiment was conducted, where axillary clusters were cultured under two levels of photosynthetic photon flux (PPF): 30 μmol m⁻²s⁻¹ (low) and 225 μmol m⁻²s⁻¹ (high), using two culture methods (conventional micropropagation in liquid medium and a temporary immersion bioreactor) during the elongation phase. CO₂ concentration in the headspace volume container was measured during a whole cycle of temporary immersion (3h). At the time before the next immersion period, the levels of CO₂ increased significantly to 14171 μmol mol⁻¹ at high PPF. The maximal photosynthetic rate as well as the maximum quantum yield of photosystem II were low for plantlets cultivated in the femporary immersion bioreactor at high PPF. However, these plantlets showed large increases in sugar and nitrogen uptake and also increases in dry weight and foliar area. These results indicate that shoot growth did not totally depend on the photosynthesis process. In vitro pineapple plantlets appeared to use more nutrients in the culture medium than those from photosynthesis. In summary, temporary immersion bioreactor-derived plantlets showed remarkable nutrient uptake, indicating a higher photo-mixotrophic metabolism.     

Abscisic acid is involved in phenolic compounds biosynthesis,mainly anthocyanins,in leaves of Aristotelia chilensis plants (Mol.) subjected to drought stress

Abscisic acid (ABA) regulates the physiological and biochemical mechanisms required to tolerate drought stress, which is considered as an important abiotic stress. It has been postulated that ABA might be involved in regulation of plant phenolic compounds biosynthesis, especially anthocyanins that accumulate in plants subjected to drought stress; however, the evidence for this postulate remains elusive. Therefore, we studied whether ABA is involved in phenolic compounds accumulation, especially anthocyanin biosynthesis, using drought stressed Aristotelia chilensis plants, an endemic berry in Chile. Our approach was to use fluridone, an ABA biosynthesis inhibitor, and then subsequent ABA applications to young and fully‐expanded leaves of drought stressed A. chilensis plants during 24, 48 and 72 h of the experiment. Plants were harvested and leaves were collected separately to determine the biochemical status. We observed that fluridone treatments significantly decreased ABA concentrations and total anthocyanin (TA) concentrations in stressed plants, including both young and fully‐expanded leaves. TA concentrations following fluridone treatment were reduced around fivefold, reaching control plant levels. ABA application restored ABA levels as well as TA concentrations in stressed plant at 48 h of the experiment. We also observed that TA concentrations followed the same pattern as ABA concentrations in the ABA treated plants. Quantitative real‐time PCR revealed that AcUFGT gene expression decreased in fully‐expanded leaves of stressed plants treated with fluridone, while a subsequent ABA application increased AcUFGT expression. Taken together, our results suggest that ABA is involved in the regulation of anthocyanin biosynthesis under drought stress.     

Free radical scavengers from Cymbopogon citratus (DC.) stapf plants cultivated in bioreactors by the temporary immersion (TIS) principle

The biomass production of Cymbopogon citratus shoots cultivated in bioreactors according to the temporary immersion (TIS) principle was assessed under different growth conditions. The effect of gassing with CO2-enriched air, reduced immersion frequency, vessel size and culture time on total phenolic and flavonoid content and free radical scavenging effect of the methanolic extracts was measured. From the TIS-culture of C. citratus, seven compounds were isolated and identified as caffeic acid (1), chlorogenic acid (2), neochlorogenic acid (3), p-hydroxybenzoic acid (4), p-hydroxybenzoic acid 3-O-beta-D-glucoside (5), glutamic acid (6) and luteolin 6-C-fucopyranoside (7). The occurrence of compounds 1-7 and their variability in C. citratus grown under different TIS conditions was determined by HPLC. The free radical scavenging effect of the methanolic extract and compounds was measured by the discoloration of the free radical 1,1-diphenyl-2-picrylhydrazyl (DPPH). The main metabolites in 6- and 8-week-old cultures, both in 5 and 10 1 vessels, were chlorogenic acid (2) (100-113 mg%) and neochlorogenic acid (3) (80-119 mg%), while in the cultures with CO2-enriched air and reduced immersion frequency the main compound detected in the extracts was glutamic acid (6) (400 and 670 mg% for the green and white biomass and 619 and 630 mg% for the green and white biomass, respectively). The most active compounds, as free radical scavengers, in the DPPH discoloration assay were caffeic acid (1), chlorogenic acid (2), neochlorogenic acid (3) and the flavonoid luteolin 6-C-fucopyranoside (7).     

Elicitation of galanthamine production by leucojum aestivum shoots grown in temporary immersion system

The influence of different elicitors (copper sulfate, silver nitrate, salicylic acid and methyl jasmonate), on both the growth and alkaloid production of Leucojum aestivum shoots grown in a temporary immersion system was studied. Seven Amaryllidaceae alkaloids and three protoalkaloids were quantitatively determined by GC‐MS analysis in leaves and bulblets, separately. Methyl jasmonate was found to significantly improve the production of galanthamine (GAL) in both leaves and bulblets. The content of GAL released to the liquid nutrient medium was also measured. The release of GAL into the liquid medium took place mainly in the first 2 weeks determined by harvesting the liquid nutrient medium after 2 weeks and measuring the GAL content (1st subculturing step). © 2013 American Institute of Chemical Engineers Biotechnol. Prog., 29: 311–318, 2013     

Assessment of somaclonal variation during sugarcane micropropagation in temporary immersion bioreactors by intersimple sequence repeat (ISSR) markers

Somaclonal variation refers to the genetic and epigenetic changes in plants regenerated from plant tissue culture. In this study, using intersimple sequence repeat (ISSR) molecular markers, the somaclonal variation during micropropagation of sugarcane using temporary immersion bioreactors (TIBs) was evaluated. Apices of the cultivar Mex 69-290 were established and multiplied by ten subcultures in TIBs. After 30 d in each subculture, the number and length of shoots per explant were recorded. For the molecular analysis, ten plants were taken per subculture, and a total of 109 bands from ten ISSR primers were obtained. For each subculture, the polymorphism (%) was calculated. A dendrogram of genetic distances between subcultures and the donor plant was obtained using a matrix of Nei’s genetic distances and the unweighted pair group method with arithmetic mean (UPGMA). The results showed that the production of sugarcane shoots tends to increase until subculture 8, while shoot length decreases. ISSR markers showed the existence of somaclonal variation during micropropagation of sugarcane. The subcultures with the highest percentage of polymorphism (%) and genetic distances (GD) were the 1°, 9°, and 10° (with 10.1, 15.6, and 10.1% and 0.0222, 0.0181, and 0.0181 GD, respectively). The molecular and statistical analysis showed that in vitro establishment and the number of subcultures are both factors that affected the frequency of somaclonal variation during the micropropagation of sugarcane using TIBs. Thus, it is important to determine the optimal number of subcultures that can be made from an explant for each species to be micropropagated.     

Kanamycin selection in temporary immersion bioreactors allows visual selection of transgenic citrus shoots

In mature citrus transformation, the nptII gene is most commonly used for selection and it is confounded by the high number of non-transformed, escaped shoots that develop on semi-solid kanamycin selection medium, even at high concentrations. Selection in liquid medium with kanamycin in temporary immersion bioreactors might provide a better means of distinguishing between transformed and non-transformed shoots. A dose-response curve was constructed for wild-type Carrizo rootstock in liquid medium to evaluate the effects of kanamycin concentration on the number and the length of microshoots. Kanamycin at 200 mg/l was chosen as the optimal concentration for selection of transgenic mature citrus shoots in bioreactors. At this dose, most non-transgenic microshoots turned yellow and their lengths and numbers were significantly reduced in comparison to the no kanamycin controls. Selection of transgenic shoots in bioreactors was tested after Agrobacterium transformations of mature Carrizo and Valencia using three different binary vectors containing nptII as the selectable marker. Shoots developed on semi-solid medium and were transferred to temporary immersion bioreactors containing liquid MS medium with 200 mg/l kanamycin. After two weeks of culture in bioreactors, 21 dark green shoots were visually selected on the basis of color from a total of 6882 microshoots, and 17 of them (81%) were confirmed as transgenic with either the GUS histochemical assay, GFP fluorescence or PCR. Yellow shoots (5675) to be discarded from pTLAB21 and pCAMBIA2301 transformations were also tested for GUS or GFP expression and only one (0.01%) was positive. Kanamycin selection of mature transgenic shoots in temporary immersion bioreactors permitted transgenics to be visually distinguished on the basis of color, and reduced labor and consumable costs for PCR screening, particularly when reporter genes were not used.     

Production of leafy biomass using temporary immersion bioreactors: an alternative platform to express proteins in transplastomic plants with drastic phenotypes

Chloroplast transformation technology is a promising approach for the production of foreign proteins in plants with expression levels of up to 70 % of total soluble protein (TSP) achieved in tobacco. However, expression of foreign protein in the chloroplast can lead to drastic or even lethal effects in transplastomic plants grown in soil, thereby potentially limiting the applicability of this technology. For instance, previous attempts to express the outer surface protein A (OspA) from Borrelia burgdorferi in tobacco chloroplasts led to plant death when expressed at 10 % TSP. We show here that this earlier transplastomic line, as well as a new plant line, OspA:YFP, expressing OspA fused to the yellow fluorescent protein, can be propagated in temporary immersion bioreactors (TIBs) using AlkaBurst? technology to produce leafy biomass that expressed OspA at levels of up to 7.6 % TSP, to give a maximum yield of OspA of about 108 mg/L. Our results show that TIBs provide an alternative method for the production of transplastomic biomass expressing proteins toxic for plants and is a particularly useful approach when ‘absolute’ containment is required.     

Photosynthesis and carbon metabolism in plantain (Musa AAB) plantlets growing in temporary immersion bioreactors and during ex vitro acclimatization

Summary The photosynthetic capacity changes and the main enzymatic systems related to carbon metabolism were investigated during the in vitro culture of plantain shoots (Musa AAB cv. CEMSA 3/4) in temporary immersion bioreactors (TIB) and their subsequent acclimatization. The maximal rate of photosynthesis (Pn), transpiration, and the activity of the carbon metabolism enzymes phosphoenolpyruvate carboxylase (PEPC), acid invertase (AI), pyruvate kinase (PK) and sucrose phosphate synthase (SPS) were measured every 7 d during the 21 d of elongation in TIB, and the following 42 d of acclimatization. Sucrose content in the liquid medium and in the leaves was also determined. The most significant changes in plant growth were observed during acclimatization. During the in vitro stage photosynthesis was limited (4–6 μmol CO₂m⁻²s⁻¹); the photosynthetic rate however increases rapidly and significantly as soon as in vitro culture is over during acclimatization. PEPC activity increased during the whole evaluation period. The highest levels were achieved around days 42 and 56. PK and SPS activities were optimal during the first weeks in acclimatization (28–35 d), while AI increased at the beginning of the elongation phase (7 d), and later at the end of the acclimatization (49–63 d). The relationships between morphological parameters, photosynthetic capacity of the plantlets and the carbon metabolism enzymes during both phases of the culture are discussed.     

Domestication of micropropagated plants of the spice damiana (Turnera diffusa)

Tissue culture propagation was performed on the spice shrub damiana (Turnera diffusa. Willd.) using MS medium (Murashige and Skoog 1962) supplemented with different combinations of the plant growth regulators, 6-benzyl adenine (BA) and indole-3-butyric acid (IBA). Organogenesis of leaf explants from wild plants and explants from propagated cuttings was compared; only the former regenerated complete plants. The highest shooting rate (92%) occurred at a concentration of 10^–7 M BA plus 10^–6 M IBA. Regenerated shoots were rooted in MS medium without any plant growth regulators. Foliage productivity of the micropropagated plants under field cultivation was determined yearly over 3 years. The yield increased annually for the first two years. The quantity of essential oils in propagated plants was similar to that of wild plants growing nearby. We propose tissue culture propagation of damiana as a viable means of domestication of this wild plant for semi-arid agriculture in Mexico. Commercial propagation would help to conserve wild populations of damiana that are currently threatened by overharvesting.Abbreviations BA 6-benzyl adenine - IBA indole-3-butyric acid     

Production of Norway spruce embryos in a temporary immersion system (TIS)

Somatic embryogenesis has already been used for Norway spruce (Picea abies (L.) Karst) embling production on a laboratory scale, but automation is needed to increase efficiency and reduce costs. One option to scale up production is mass production in bioreactors. In a series of experiments, a pro-embryogenic mass was propagated using Plantform temporary immersion system bioreactors, and the effect of different aeration cycles, support pad materials, and post-maturation treatments (rinsing and desiccation) on the embryo yield and embling survival after 4 to 6 mo in a greenhouse was tested. Three genotypes were used to test each treatment. The best aeration frequency was 20 min every 4 h, while a lower or higher frequency did not generally improve embryo production. Filter paper on plastic netting was the best support pad material in terms of usability and embryo production (varying from 177 ± 20 to 696 ± 109 per g pro-embryogenic mass). The separation of the embryos from the undeveloped cell mass by rinsing with sterile water resulted in reduced survival of the emblings. Desiccation treatment on nested plates with the embryos on the inner plate with or without filter paper improved their survival. Bioreactors were laborious to prepare, load, and clean. Improvements in embryo production can be achieved by optimizing the process, but bioreactors based on the requirements of somatic embryogenesis are needed to enable their use in the mass production of Norway spruce emblings.

     

Pineapple (Ananas comosus L. Merr) micropropagation in temporary immersion systems

A procedure for the mass propagation of pineapple plants (Ananas comosus L. Merr) using a temporary immersion technique is described. This procedure involved three distinct phases in the automated temporary immersion system: shooting, bud differentiation and elongation. To establish this protocol, we used in vitro shoots obtained from established liquid culture as starting materials. Three culture methods (solid, liquid and temporary immersion) were compared. Temporary immersion increased the multiplication rate and fresh and dry weight after 42 days. Conventional micropropagation (liquid medium) and temporary immersion were compared in combination with paclobutrazol. Paclobutrazol promoted the formation of compact bud clusters with limited leaf development. The highest multiplication rate (106) was found when ex-plants were cultured in shooting medium (MS+2.1 mg/l BA+0.3 mg/l NAA) supplemented with 1 mg/l PB for 7 weeks. A 10-l temporary immersion bioreactor was used to test two approaches during elongation stage: reduction of the shoot-formation period or decrease of the initial number of explants. The highest number of competent and uniform plants (191.8 plant/l) was achieved when shoots were cultured for 4 weeks in shooting medium supplemented with PB. Received: 4 February 1998 / Revision received: 22 June 1998 / Accepted: 14 August 1998     

Micropropagation of cocoyam (Xanthosoma sagittifolium L. Schott) in temporary immersion bioreactor

This study aims at establishing a temporary immersion technique for large-scale propagation of cocoyam (Xanthosoma sagittifolium). Sucrose was experimented with as a determinant factor for shoot multiplication in this culture system. The highest proliferation rate (68 ± 7) occurred with 20 g l^?1 sucrose in the culture medium. This concentration appeared to be the optimal amount due to its promoting effect on plantlet development. The acclimatized plantlets showed a continuous effect of sucrose treatment during ex vitro growth, especially in low sucrose concentration. This fact is evidenced by the low survival rate (0.13 ± 0.12) and the poor chlorophyll content (1.180 ± 0.076 mg g^?1) recorded on plantlets derived from 15 g l^?1 of sucrose. The treatment with 60 g l^?1 of sucrose prior to acclimatization was efficient for roots induction and elongation. The analysis of pH revealed a fluctuation from one subculture to another, with an overall pH decrease under all treatments tested and, thus, indicates that plants release proton during growth. This feature had an impact on in vitro plantlets growth. The potentiality of the temporary immersion technique to foster the production of Xanthosoma sagittifolium is discussed.     

Effect of sucrose,inorganic salts,inositol, and thiamine on protease excretion during pineapple culture in temporary immersion bioreactors

Summary Although pineapple plants have been found to produce proteases ex vitro, most of the biotechnological investigations of this crop have been focused on propagation. The procedure involving the use of temporary immersion bioreactors is one of the most outstanding because of its high multiplication rate. We previously recorded specific protease activity in the culture medium during the pre-elongation step of this protocol. Therefore, we decided to modify the culture medium composition of this phase looking for an increase in protease excretion. Four independent experiments were performed to evaluate the effects of different levels of sucrose (0–350.4 mM), inorganic salts [0–200% Murashige and Skoog (MS) salt strength], inositol (0–2.20 mM), and thiamine (0–1.2μM). The following indicators were recorded: shoot fresh mass per bioreactor; and protein concentration, proteolytic activity, and specific protease activity in culture media. Specific protease activity, the most important indicator recorded, was highest with 262.8 mM sucrose, 100% MS salt strength, 0.3 μM thiamine and no inositol. Results shown here demonstrate that conditions adequate for propagation purposes (87.6 mM sucrose, 100% MS salt strength, 0.55 mM inositol, 0.3 μM thiamine) are not always adequate for protease excretion.     

New contributions to propagation of pineapple (<Emphasis Type="Italic">Ananas comosus</Emphasis> L. Merr) in temporary immersion bioreactors

Summary Plantlets propagated in temporary immersion bioreactors (TIB) have better performance than those propagated by conventional methods such as micropropagation. This is as a result of a better handling of the in vitro atmosphere and the nutrition. The object of this study to further improve the cultivation conditions by introducting photomixotrophism as an intermediate link of photoautotrophic growth during ex vitro acclimatization. For this purpose the effects of light were evaluated by different parameters such as photosynthetic photon flux density (PPF), sucrose concentration, and CO₂ enrichment levels on CO₂ evolution inside the culture vessels. It was observed that CO₂ diminished upon light exposure and increased in the dark according to the photoperiod during each cycle of immersion. With this approach it was possible to increase the photomixotrophism in the pineapple plantlets propagated in TIB. It was demonstrated that light is the factor with more influence on plant quality, although under these conditions they seem to use more of the nutrients of the medium than their photoassimilates. The propagation of pineapple in TIB involves three phases: proliferation, pre-elongation, and final growth of the buds. In each phase the cultivation conditions were determined to substitute for sterilization by autoclaving, to improve the quality of the plants, to elevate the efficiency of the process, and to reduce production costs. The buds that grew in the temporary immersion bioreactor with the presence of Vitrofural (G-1) achieved the best indicators of growth. Significant increases were observed in the leaf area, dry mass of the buds, and chlorophyll contents.     

In vitro germination and development of “Canelita” (Lycaste aromatica (Graham) Lindl.) in gravity immersion bioreactors

In Vitro Cellular & Developmental Biology - Plant - Lycaste aromatica (Graham) Lindl. orchid is known for its outstanding cinnamon aroma, which has caused its illegal and accelerated extraction...     

Random amplified polymorphic DNA (RAPD) markers for genetic analysis in micropropagated plants of Populus deltoides Marsh

RAPD markers were used to assess genetic fidelity of 23 micropropagated plants of a single clone (L34) of Populus deltoides. Eleven arbitrary 10-base primers were successfully used to amplify DNA from in vivo and in vitro material. Of these, 5 distinguished a total of 13 polymorphisms common across 6 micropropagated plants. Apart from these 6 plants, the amplification products were monomorphic across all the micropropagated plants, the mother plant and 4 additional field-grown control plants. Our results show that RAPD markers can be used to gain rapid and precise information about genetic similarities or dissimilarities in micropropagation systems that might not be so easily evident from other commonly used techniques.     

Population structure and genetic diversity in bottle gourd [Lagenaria siceraria (Mol.) Standl.] germplasm from India assessed by ISSR markers

Genetic diversity analysis was undertaken in 42 geographically distant genotypes accessions of bottle gourd (Lagenaria siceraria) from India northeastern (14) and northern region (28) using inter-simple sequence repeat (ISSR) markers. A total of 209 amplified bands were obtained from 20 ISSR primers used in this study, of which 186 were polymorphic with 89.00 % band polymorphism. Various parameters namely, observed number of alleles, effective number of alleles, Nei’s gene diversity/heterozygosity, resolving power, Shannon’s information index and gene flow were estimated under experiment. Jaccard’s similarity coefficient matrix was generated for pairwise comparisons between individual ISSR profiles and UPGMA cluster analysis based on this matrix showed clustering into six groups. Jaccard’s coefficient of similarity values ranged from 0.409 to 0.847, with a mean of 0.628 revealing a moderate level of genetic diversity. The Bayesian model-based approach to infer hidden genetic population structures using the multilocus ISSR markers revealed two populations among the 42 genotypes. This is the first report on the assessment of genetic variation using ISSR markers in this medicinal vegetable plant, and this study of diversity analysis will be helpful in analyzing future hybrid breeding strategy and devising effective germplasm exploration and conservation strategy.