Use of sugarcane bagasse as an alternative low-cost support material during the rooting stage of apple micropropagation

Summary Studies were carried out to evaluate sugarcane bagasse as an alternative to agar for micropropagation of apple clones to reduce the cost of micropropagation and improve the quality of the propagules. Significant improvement in the in vitro rooting process, coupled with cost reduction, were obtained by the use of sugarcane bagasse as a substitute for the traditionally used agar-gelled medium. The tests were undertaken with micro-cuttings of the apple rootstock Marubakaido (Malus prunifolia Borkh.) using a rooting medium composed of half-strength Murashige and Skoog salts and vitamins, 3% (w/v) sucrose, and 0.49 μM indole-3-butyric acid. The plants grown on sugarcane bagasse yielded a 22% increase in root length, 20% increase in plant length, and 63% increase in the number of roots, compared with agar-grown micro-cuttings. Particle size of the sugarcane bagasse had a significant impact on all those parameters, and the best results were obtained with bagasse comprising particles smaller than 0.18 mm. The results demonstrated that the sugarcane bagasse could be used effectively as a substitute for agar during rooting of apple shoots.     

Micropropagation of ‘Durondeau’ pear in modified-gelled medium

Summary The influence of partial substitution of agar by galactomannans (GMs) in culture media was studied in pear (Pyrus communis L. cv. ‘Durondeau’) micropropagation. GMs. extracted from seeds of Cassia fastuosa (cassia) or Cyamopsis tetragonolobus (guar gum, a commercial GM), were mixed in equal proportions with agar to a final concentration of 0.3% (w/v) for each type of gelling agent. The production of multiple shoots and the formation of roots from shoots were compared with the control solidified with agar alone at a concentration of 0.6% (w/v). In the media solidified with the mixtures of agar/guar and agar/cassia GMs, an, increase of 32 and 17%, respectively, was obtained in the number of regenerated shoots. The modified media promoted a higher number of roots and increased the rooting percentage. A maximum of 91% rooting was obtained in the medium solidified with the agar/cassia GM and containing 9.80 μM indole-3-butyric acid. Less callus formation at the base of the shoot was also observed on this medium. The improved in vitro performance of shoot formation and rooting, combined with a significantly lower cost, suggests a potential use of agar/GM gels in plant tissue culture.     

Micropropagation of <Emphasis Type="Italic">Cotoneaster wilsonii</Emphasis> Nakai—a rare endemic ornamental plant

A simple and efficient micropropagation system was developed for Cotoneaster wilsonii through node and shoot tip explants obtained from mature field-grown plants. Of the two explants, node explants were found to be the most effective for axillary shoot proliferation. The highest frequency of shoot induction was achieved when nodal explants were incubated on Murashige and Skoog (MS) medium supplemented with 0.5 mg L⁻¹ thidiazuron (TDZ) and 0.1 mg L⁻¹ α- naphthaleneacetic acid (NAA) with an average of 34 shoots per explant. The microshoots were separated from the multiple shoots and subcultured on MS medium supplemented with 3% (w/v) sucrose and 0.8% (w/v) agar for further shoot growth. Maximum rooting was obtained on half-strength MS medium supplemented with 0.5 mg L⁻¹ indole-3-butyric acid (IBA). The in vitro-grown plantlets were successfully acclimatized in a glasshouse with 98% of survival. High concentrations of TDZ (1.5–2.0 mg L⁻¹) and repeated subcultures resulted hyperhydric shoots. Supplementation of the culture medium with silicon significantly reduced the induction of hyperhydric shoots. Increasing silicon concentration significantly decreased malondialdehyde content of the regenerated shoots. Data indicate that addition of silicon to the culture medium can effectively control hyperhydricity.     

In vitro rooting of the apple rootstock M 26 in adult and juvenile growth phases and acclimatization of the plantlets

In order to obtain optimum conditions for in vitro propagation of the apple rootstock M 26 ( Malus pumila Mill.) in adult and juvenile growth phases, several rooting experiments were performed. Supraoptimal concentrations of indole-3-butyric acid (IBA) added to the rooting media resulted in profuse callus formation. Since extensive callus production is detrimental to the survival of the plantlets, modified culture conditions were established to reduce callus formation. A reduction of the time of exposure to IBA to 5 days and, thereafter, transfer to a hormone-free medium did not eliminate callus production. Exposure to darkness during the root initiation phase increased rooting. When the rooting medium was based on the Lepoivre formula instead of the Murashige and Skoog formula, callus formation was reduced. Optimum conditions for rooting were obtained at much lower concentration than earlier reported, being 1.25 μM for the juvenile and 0.5 μM for the adult growth phase in the range of IBA concentrations tested. Anatomical studies revealed that root initials are formed after 5 days of IBA-treatment. Therefore, we transferred shoots directly to non-sterile conditions after the root-inducing phase. This resulted in a 90% survival of the plantlets. Subculture on hormone-free medium can thus be eliminated when the optimum auxin concentration is known.     

In vitro propagation of Notocactus magnificus

Most commercially grown cacti can be easily propagated by seed and/or cuttings. A group of rare and endangered species does not fit into this category and is therefore a good candidate for in vitro propagation productions as a tool to overcome habitat and plant-destruction. The number of rare and endangered species of Cacti goes into about 100. Many show a low production and germination of seeds and plantlets are prone to damping-off, making the in vitro propagation a feasible alternative for the multiplication and conservation of their germplasm. The aim of the present investigation is to establish a protocol for the in vitro culture and plant regeneration of Notocactus magnificus, the blue cactus, a highly ornamental species, native to Brazil. The surface sterilization of the explants was achieved with immersion for 10 min in sodium hypochlorite solution for either seeds (0.25% v/v) or ribs segments (1% v/v). Callus formation was observed when explants were cultured on MS medium supplemented with sucrose at 2% (w/v), 2,4-dichlorophenoxyacetic acid 0.5 μM, benzylaminopurine 4.4 μM, thiamine HCl 0.4 mg l⁻¹ and i-inositol 100 mg l⁻¹. The regeneration of shoots was carried out on MS medium supplemented with either different concentrations of benzylaminopurine and 1-naphthaleneacetic acid, or kinetin and indole-3-acetic acid. The highest number of shoots occurred when MS medium was supplemented with benzylaminopurine 22.2 μM, sucrose 3% (w/v) and agar 0,6% (w/v). In vitro spontaneous rooting of shoots was observed after eight months under culture on MS medium. Only in vitro rooted shoots developed into normal plants under glasshouse culture conditions. This in vitro protocol should be useful for the conservation as well as mass propagation of Notocactus magnificus.     

四倍体稗草的组织培养与快速繁殖

以筛选得到的四倍体稗草成熟胚作为外植体,进行了组织培养与快速繁殖技术的研究。结果表明:最佳外植体消毒方式为70%乙醇浸泡30 s+0.1%(w/v)的升汞消毒15 min。最佳诱导培养基为MS盐、DL维生素+2.5 mg/L 2,4-D+300 mg/L谷氨酰胺+500 mg/L脯氨酸+3%麦芽糖。将愈伤组织转入分化培养基(MS+50 mg/L肌醇+1.0 mg/L 6-BA+0.2 mg/L KT+0.5 mg/L NAA+0.25 mg/L IAA+3%麦芽糖)上,培养20 d后超过70%的愈伤组织分化成苗。将3-5 cm长的分化苗转入1/2 MS生根培养基进行生根培养。炼苗后,移入营养土与珍珠岩(2∶1)的基质中,移栽成活率高达90%以上。该体系的建立为稗草抗除草剂基因的功能验证提供了前提条件。     

The Effect of Plant Growth Regulators and Sucrose on the Micropropagation and Microtuberization of <Emphasis Type="Italic">Dioscorea nipponica</Emphasis> Makino

The effects of sucrose, plant growth regulators, MS (Murashige and Skoog), and ½MS salt media formulations were investigated for the development of shoot cultures, microtuber induction, and plantlet regeneration in Dioscorea nipponica. The cytokinin N-benzyladenine (BA) in the range of 0.5–2.0 mg/l showed strong enhancing effects on microtuber induction only when used in conjunction with the auxin alpha-naphthalene acetic acid (NAA), with the effect that NAA increased from 0.5 to 2.0 mg/l. Murashige and Skoog salt media supplemented with sucrose at 3% (w/v) gave the highest frequencies of shoot induction (86%) when BA was present at 2.0 mg/l and NAA at 1.0 mg/l. Sucrose at 7% (w/v) was the single most significant medium constituent for microtuber growth. The heaviest microtubers were formed on media containing 1.0 mg/l BA and 2.0 mg/l (0.073 g), especially with 7% sucrose (3.46 g). With media containing ½MS, 2% sucrose, and 0.1% (w/v) activated charcoal, the percentage of rooting was maximal when supplemented with 1.0 mg/l BA and 0.5 mg/l NAA for the in vitro produced shoots (95%) and BA and NAA both at 0.5 mg/l for the microtubers (100%). When removed from culture flasks and transferred into sterilized soil in a greenhouse, most of the hardened plantlets survived (over 91% after 1 week), and they were suitable for field planting after 1 month.     

Effects of the growth retardant paclobutrazol on large-scale micropropagation of daylily (<Emphasis Type="Italic">Hemerocallis</Emphasis> spp.)

Summary Meristematic clusters were induced from daylily scape explants (pedicel-scape junction) in the presence of the growth retardant Paclobutrazol on semisolid agar medium. Liquid shake culture was used to proliferate meristematic clusters. Highly efficient regeneration of adventitious shoots occurred on clusters after subculture on a 0.8% agar strength semisolid medium with the addition of activated charcoal. Paclobutrazol and sucrose levels in the media were found to significantly affect starch accumulation, growth value, and dry weight percentage of liquid-cultured meristematic clusters. The use of liquid shake cultures for mass proliferation of meristematic clusters followed by regeneration of adventitious shoots on semisolid agar culture could be an efficient system for large-scale micropropagation of daylily.     

Gum katira – a cheap gelling agent for plant tissue culture media

Gum katira, an insoluble gum derived from the bark of Cochlospermum religiosum, has been successfully used as a gelling agent in tissue culture media for in vitro shoot formation and rooting in Syzygium cuminii and somatic embryogenesis in Albizzia lebbeck. The epicotyl segments, excised from in vitro grown seedlings of S. cuminii, developed shoots when cultured on MS medium (Murashige and Skoog, 1962), supplemented with 4% sucrose and 1 mg l^–1 BA. The so-developed shoots were rooted on Knop's medium, augmented with 2% sucrose and 1 mg l^–1 IAA. For somatic embryogenesis, hypocotyl segments derived from in vitro developed seedlings of A. lebbeck were cultured on B5 medium containing 2% sucrose. Media were gelled with either 3% gum or 0.9% agar. The quantitative response obtained on media fortified with either of the gelling agents was not significantly different. The media gelled with gum katira were almost as transparent as the liquid medium. However, viscosity of gum katira gelled medium was less than one-sixth of the viscosity of agar-gelled media, and therefore, shaking ofthe culture vessel often resulted in submersion of the explants. Nevertheless, even these submerged explants responded positively. To increase the firmness of the gum katira-gelled medium, various combinations of agar (0.2–0.6%) and gum (1–3%) were used. However, the viscosities of the media gelled with 3% gum katira as well as different concentrations of agar (0.2–0.6%) were lower than that of the medium containing only gum katira (3%). Moreover, the explant productivity obtained in neither of these combinations was more than those recorded on the control media, which were gelled either with 0.9% agar or 3% gum alone.     

An improved system for the <Emphasis Type="Italic">in vitro</Emphasis> regeneration of <Emphasis Type="Italic">Thapsia garganica</Emphasis> via direct organogenesis – influence of auxins and cytokinins

An improved protocol for mass multiplication directly from leaf material of Thapsia garganicawas developed. Using factorial experimentation, auxins (NAA, IAA, 2,4-D) and cytokinin (BA, kinetin) combinations at 0–2 mg l⁻¹ added to Murashige and Skoog (MS) medium with 30 g l⁻¹ sucrose and 8 g l⁻¹ agar (pH 5.8) were tested for their effect on direct regeneration on leaflet and petiole explants. Of the media tested, the 0.5:1.5 NAA:BA medium was comparable for direct shoot organogenesis to the 2 mg l⁻¹ kinetin supplemented medium. However, when shoots were multiplied on these media, the 2 mg l⁻¹ kinetin without auxins was most effective as it kept the percentage of callus-derived plantlets to 3% and the number of hyperhydric shoots were minimal at a frequency of 2% compared to 25% on the 0.5:1.5 NAA:BA medium. The 2 mg l⁻¹ kinetin medium induced adventitious bud formation in 36% of the explants after 30 days. When the cultures were transferred to the same medium for multiplication, an average of six shoots (4.3 cm) were derived from each shoot base. Other combinations resulted in callus formation that either preceded shoot production or occurred together with adventitious shoot induction; whereas the 2 mg l⁻¹ medium resulted solely in adventitious buds that readily converted and elongated to shoots. On the 0.5:1.5 NAA:BA medium which tended to induce hyperhydric shoots in culture, agar (0.8, [w/v]) (15% hyperhydric plantlets) was more useful in maintaining a high health status in regenerating plantlets than gellan gum (Gelrite^®; 0.25, [w/v]) (60% hyperhydric plantlets). Although rooting in vitro was difficult, 58% of the propagules were successfully acclimatized when plants were exposed to fungicidal solutions as pre- and post-acclimatization treatments. A comprehensive protocol that allows for a reduction in mortality due to damping-off diseases during ex vitro transplantation of the in vitro-derived T. garganica plantlets is reported. The acclimatization procedure presented here is potentially suited to other umbelliferous species where fungal rots hamper ex vitro establishment.     

Rapid clonal propagation of Saccharum officinarum L. Vars. CO-6907 and CO-86249 and to assess the genetic uniformity through molecular markers

Abstract

An efficient protocol was developed for in vitro clonal propagation of Saccharum officinarum Vars. CO-6907 and CO-86249 through axillary meristem culture. Maximum meristem elongation was achieved on Murashige and Skoog's (MS) medium supplemented with 0.5 mg/L 6-benzyladenine (BA) and 0.5 mg/L kinetin (Kn) within 15 days of culture. Multiple shoots were induced from meristems on MS basal medium supplemented with 1.0 mg/L BA, 0.5 mg/L Kn, 0.25 mg/L 1-napthaleneacetic acid (NAA) and 3% (w/v) sucrose. Addition of 0.1–0.25 mg/L gibberellic acid into the multiplication medium found the better shoot elongation. Repeated subculture on multiplication medium induces higher rate of shoot multiplication. The root induction from excised microshoots was achieved on half-strength MS medium supplemented with 1.0–2.0 mg/L NAA or indole-3-butyric acid and 6% (w/v) sucrose. While either decreasing or increasing of sucrose concentration in the rooting medium, the percentage of rooting was reduced. Maximum percentage of rooting was achieved on medium having 2.0 mg/L NAA with 6% (w/v) sucrose. About 80% of micropropagated plantlets were hardened in the greenhouse and successfully established in the soil. Random Amplified Polymorphic DNA marker was used to detect the variability among the micropropagated plants developed through in vitro. The results showed that there was no polymorphism among the micropropagated plants. This study will help for propagation of quality planting material of high-yielding variety of sugarcane for commercialization.     

Morpho-histological characterization and direct shoot organogenesis in two types of explants from <Emphasis Type="Italic">Bacopa monnieri</Emphasis> on unsupplemented basal medium

In the present study, high frequency regeneration has been obtained via de novo direct shoot organogenesis from leaf and internode explants in Murashige and Skoog (MS) basal medium without any phytohormone supplementation in Bacopa monnieri, an indigenous traditionally used medicinal herb. Leaves and internodes from different positions were excised from 4-weeks-old in vitro propagated B. monnieri plants and cultured on MS basal medium supplemented with 3% (w/v) sucrose and 0.75% (w/v) agar for 4 weeks. The induction of de novo shoot buds was observed at petiolar cut edges of leaf and both proximal and distal cut ends of internode explants within 10–15 days of culture. The first histological changes could be observed after 4–5 days, with meristematic activity of vascular bundles. Proliferation of epidermal cells gave rise to dome-shaped protuberances followed by shoot apical meristems formation and their vascular connections with explant tissues within 2 weeks of culture. However, a basipetal gradient of shoot regeneration from both types of explants collected along the branch axis was noticed after 4 weeks of culture. Leaf and internode explants near the basal region exhibited significantly higher number of shoot buds and micro shoots (8.8/leaf explant and 15/internode explant). Microshoots (7–12 micro shoots/leaf or internode explants) elongated (shoot length 8–9 cm) within 8 weeks on phytohormone free MS medium. Excised micro shoots rooted (100%) in hormone free MS medium within two weeks of culture. Rooted plants were then acclimatized and transferred to field with 95% survival. This protocol may be used for micropropagation, genetic transformation as well as a model system for evaluation of changes associated with acquisition of competence of differentiated cells in phytohormone free medium.     

Protoplast Culture and Plant Regeneration of Malus pumila

Calli were induced and suspension cell lines were set up from ovule of Malus pumila Mill. Protoplasts (5.40 × 106/g fr. wt) were isolated from suspension cell lines in enzyme mixture solution containing 2.0% Onozuka R-10, 0.5% pectinase, 0. 65 mol/L mannital, 0.01 mol/L CaC12, 0.7 mmol/L KH2 PO4, 0.3% dextran sulfate potassium salt, at pH 5.8 for 6 h at 26℃. The cell clumps were formed from protoplasts cultured in modified MS, K8p, D2 media. Calli were formed on MS solid medium containing 2.0 mg/L IAA, 2.0 mg/L NAA, 0.1 mg/L BA. Shoots were differentiated on differentiated medium after several changes of the medium. Eventually, shoots rooted and developed into whole plantlets on a rooting medium.     

Micropropagation of four cultivars of Saskatoon berry (Amelanchier alnifolia NUTT.)

In vitro culture establishment, shoot proliferation, ex vitro rooting and dormancy breaking of the newly rooted plantlets were examined on Saskatoon berry (Amelanchier alnifolia NUTT.) cultivars Northline, Pembina, Smoky and Thiessen. Shoot-tip explants taken from actively growing plants were better for culture initiation than dormant buds. MS gave the most satisfactory results of the media formulations. Optimal shoot proliferation occurred at 8.8 and 13.3 M BA. Higher BA concentrations caused culture deterioration during long-term maintenance. Auxin treatments significantly stimulated ex vitro rooting of shoots in all cultivars. The best rooting was achieved with IAA/NAA (2.8/1.1 M) mixture. Satisfactory results were also obtained with commercial powder formulation, Rootone F, containing IBA/NAA mixture. Foliar application of BA and GA₄₊₇ was successful in breaking dormancy of newly rooted plantlets. Combinations of these two growth regulators caused formation of axillary shoots and vigorous plant growth. There were significant differences in the cultivar responses to culture conditions and treatments with growth regulators. The best culture establishment and the highest rate of shoot proliferation was observed in cv. Thiessen; the best rooting and the most vigorous post-dormancy growth was recorded in cv. Smoky. Cultivar Northland gave the most erratic responses.Abbreviations BA benzyladenine - cv(s) cultivar(s) - GA gibberellin - IAA indoleacetic acid - IBA indolebutyric acid - NAA naphthaleneacetic acid - MS Murashige & Skoog's medium     

Auxin stability and accumulation during in vitro shoot morphogenesis influences subsequent root induction and development in <Emphasis Type="Italic">Eucalyptus grandis</Emphasis>

Recent results showed that after 16 months in the field, micropropagated eucalyptus plants have an inferior root system to cuttings. Such differences may be due to the plant growth regulators supplied during the culture stages of standard protocols, which are targeted at optimising plantlet yields and not root quality. This study investigated such a proposal, focusing on auxins in an easy-to-root clone. Initial results showed that the auxin provided in the standard protocol (NAA for multiplication and IBA for elongation) enabled 100% rooting in auxin-free medium, where rooting was faster than on IBA-rooting media. When auxin supply was omitted from multiplication and restricted to NAA or IAA during elongation, rooting in an auxin-free medium was reduced to 68 and 31%, respectively, reflecting the stabilities of these auxins in plant tissues. Additionally, 15% of shoots from the NAA-medium and 65% from the IAA-medium produced roots with altered graviperception. GC–MS analysis of these shoots revealed a relationship between free IAA-availability and altered graviperception. This was further tested by adding the IAA-specific transport inhibitor 2,3,5-triiodobenzoic acid to rooting media with IBA, IAA or NAA, which resulted in 100, 70.9 and 20.6% rooting, respectively. At least 40% of the sampled root tips had atypical starch grain deposition and abnormal graviperception. It is proposed that, at least in this clone, while IBA and NAA can be used for in vitro root induction, IAA is necessary for development of graviresponse.     

`Isubgol' as an alternative gelling agent in plant tissue culture media

`Isubgol', the mucilaginous husk derived from the seeds of Plantago ovata, was successfully used as a gelling agent in tissue culture media for in vitro seed germination, shoot formation and rooting in Syzygium cuminii and anther culture in Datura innoxia. For seed germination, Knop's basal medium supplemented with 1% sucrose was employed, whereas for the development of shoots the epicotyl segments excised from in vitro-developed seedlings were cultured on MS basal medium supplemented with 4% sucrose and 1 mg/l 6-benzyladenine. Shoots that developed from the epicotyl segments were rooted on Knop's medium enriched with 2% sucrose and 1 mg/l indole-3-acetic acid. The anthers of D. innoxia excised at the late uninucleate to early binucleate stages of microspore development were cultured on Nitsch's basal medium containing 2% sucrose. Media were either gelled with 0.9% agar or 3% `Isubgol'. The response on media gelled with `Isubgol' in each of the cases was similar to that on media solidified with agar. Received: 9 October 1996 / Revision received: 22 July 1996 / Accepted: 30 July 1997     

Evidence for an interaction effect during <Emphasis Type="Italic">in vitro</Emphasis> rooting of oil palm (<Emphasis Type="Italic">Elaeis guineensis</Emphasis> Jacq.) somatic embryo-derived plantlets

In vitro rooting of oil palm shoots derived from somatic embryos was achieved through a single-phase protocol in which three shoots are cultured in the same culture tube on an α-naphtaleacetic acid-enriched culture medium. Rooting performance was dependent on both the genetic origin and initial size of the shoot explants. All shoots from a given tube showed a tendency to give roots of the same type, independent of the original size of the explant. Whatever the clonal line, longer-size shoots (L-type: >9 cm) showed higher rooting rates than medium-size (M-type: 7–9 cm) and short-size ones (S-type: 5–7 cm). When groups of three shoots from the same clonal line were rooted together in the same culture tube, the combination of plant size within the group impacted overall quality of rooting. Within triplets of shoots containing more than one short individual, the probability of obtaining adequate rooting was low. Similarly, when more than one long shoot was included in the triplet rooting, quality was also poor. By avoiding such combinations, the rate of well-rooted plantlets increased by 25%, with a maximum of 66% when triplets of S/M/L combination were used. Smaller shoots, which usually showed poor rooting performance, were therefore found to benefit from the presence of their neighbors. This interaction between the sizes of individuals in a given tube was found to be associated with a within-tube correlation effect, a phenomenon previously described as “event coupling,” which was estimated using a distorted binomial-type distribution of probabilities. The resulting calculation of a coupling factor (average r = 0.60) explains the behavior of shoots within the same culture tube and their average rooting performance. Modeling of the interactions that occurred during in vitro rooting is described here and is recommended for improvement of this critical step in micropropagation.     

Role of carbohydrates in micropropagation of cork oak

The influences of carbon sources, fructose, glucose, sorbitol and sucrose on shoot proliferation and in vitro rooting of cork oak (Quercus suber L.) were compared at a wide range of concentrations (1–6%, w/v). The highest number of shoots occurred on glucose-containing medium. Nevertheless, we have chosen 3% sucrose which induced a similar rate of proliferation but favoured shoot elongation, permitting an effectively higher number of shoots during transfers. Sorbitol and autoclaved fructose did not stimulate shoot proliferation. Adventitious root formation was strongly dependent on carbohydrate supply. Sorbitol and autoclaved fructose were completely ineffectively on rooting induction. Glucose was the most effective carbon source on rooting promotion followed by sucrose and filter-sterilized fructose. The rooting response induced by fructose was dependent on the sterilizing procedure. The number of adventitious roots produced per shoot increased with increasing glucose and sucrose concentration. The content of reducing sugars in leaves of proliferation cultures and in leaves and roots of rooted plantlets was more dependent on carbon concentration than on glucose or sucrose supplement. The results presented here show that carbohydrate requirements during cork oak micropropagation depend upon the phase of culture. Sucrose (3%) and glucose (4%) were the best carbon sources respectively during proliferation and rooting phases.     

贯叶连翘的水培及其代谢产物检测

水培可诱导贯叶连翘组培苗生根能力强,根活力也增加;生根苗在1/6MS培养液中培养6周后的金丝桃素(HP)、假金丝桃素(PHP)和贯叶金丝桃素(HF)含量分别比基质[腐质土 蛭石(1:1)]中培养的提高10.13%、16.00%和61.36%。     

Determination of oxygen profiles in agar-based gelled in vitro plant tissue culture media

Keeping account of the limited knowledge concerning the relevance of the oxygen status of the medium during in vitro culture, a technique was elaborated to systematically study the oxygen concentration in gelled media. In a first series of experiments, the Oxygen Diffusion Rate (ODR) technique was used to investigate the dissolved oxygen concentration as a function of time at different depths. The results obtained demonstrated that the oxygen concentration in agar media was reduced by 80% during the heating steps included in the preparation procedure. It took about one week to reach an oxygen concentration equal to 90% of the equilibrium value at a depth of 1 cm, irrespective of the brand of agar used. As the recovery of the oxygen concentration at various depths could be nicely modelled by Fick's law, it follows that this process is diffusion limited. In this respect, fluorescence recovery after photobleaching (FRAP) measurements revealed that the diffusion coefficient of oxygen in gelled media was only affected to a very small extent by the presence of up to 2% (w/v) agar. In a final experiment, explants of Ficus benjamina were cultured on a rooting medium. As the oxygen concentration in the gelled medium was not significantly affected by the presence of the biological material, it was concluded that the oxygen uptake by explants from gelled media is negligibly small and hence cannot be considered as being a growth-limiting factor during in vitro micropropagation. This revised version was published online in June 2006 with corrections to the Cover Date.