Studies of cotyledon protoplast cultures from B napus,B. campestris and B. oleracea. II: Callus formation and plant regeneration

Cotyledons from twelve cultivars of Brassica; B. napus (Westar, Eureka, Global, Pivot and Narc 82); B. campestris: (Arlo, Sonja, Bunyip and Wonk Bok) and B. oleracea (Phenomenal Early, Sugar Loaf and Earliball) were used for protoplast isolation and culture in a comparative study of cell colony and callus formation, and plant regeneration. The formation of cell colonies and callus from protoplast cultures were significantly influenced by the light conditions of seed germination. All twelve cultivars showed callus formation from protoplast cultures derived from cotyledons of seedlings grown in dark for 3 days followed by 1 day dim light (dark/dim light-grown). Callus was obtained in all five liquid media used: modified K8P(1), modified K8P(2), modified MS, modified B and modified NN. In contrast, only six cultivars exhibited callus formation from the protoplasts isolated from cotyledons of seedlings germinated under light conditions for 7 days (light-grown) and in only three media: modified K8P(1), modified MS, modified B.Callus, derived from protoplast cultures isolated from dark/dim light-grown cotyledons and grown on K3 or MS series solid media for about 1 month, could develop shoots when further transferred onto MS series regeneration media. All five cultivars of B. napus, three of the four cultivars of B. campestris (Arlo, Sonja and Bunyip) and one of the three cultivars of B. oleracea (Sugar Loaf) exhibited shoot regeneration from protoplast cultures within 2–3 months after protoplast isolation. The frequency of shoot regeneration ranged among 1–22.5%. A high degree of reproducibility was observed in cultivars Westar, Eureka, Global, Arlo, Bunyip and Sugar Loaf. In contrast, among the six cultivars that formed callus in protoplast culture derived from light-grown cotyledons, only three cultivars from B. napus (Westar, Eureka, Global) exhibited shoot regeneration 5.5 months after protoplast isolation. Regenerated shoots from cultivars Westar, Eureka and Bunyip and Sugar Loaf, which derived from protoplasts of dark/dim light germinated seedling and were induced to root on rooting media, survived in soil and grew to produce silique and set seeds.Abbreviations 2,4-d 2,4-dichlorophenoxyacetic acid - BA benzylaminopurine - EDTA ethylenediaminetetraacetic acid - IAA indole-3-acetic acid - IBA indole-3-butyric acid - KT kinetin - GA₃ gibberellic acid - MS Murashige and Skoog medium - NAA -naphthaleneacetic acid - PAR photosynthetically active radiation     

Optimization of formation and regeneration of protoplasts from biocontrol agents ofTrichoderma species

The optimal conditions necessary for a large yield and a high frequency of regeneration of protoplasts isolated from the biocontrol agentsTrichoderma koningii andT. harzianum were investigated. Protoplast yields were 1.2×10⁸/ml fromT. koningii and 6×10⁷/ml fromT. harzianum when 20-h mycelial culture was treated with a lytic enzyme solution containing Novozym 234 (15 mg/ml), sucrose (0.6 M) and citrate phosphate buffer (0.02 M), pH 5.6 at 31°C. When the protoplasts were grown in the regeneration medium containing yeast extract (1.5%), 1 I of Mandel's salts, pH 5.6, and glucose (0.8 M), a high frequency of regeneration of the protoplast was obseved: 66% forT. koningii and 45% forT. harzianum. Two patterns of regeneration were observed. First, the hyphae arose directly from the regenerated protoplast mother cell. Second, a chain of bud cells developed from the protoplast and subsequently generating hyphae generally protruded from the terminal bud cells.     

Somatic embryogenesis and plant regeneration from isolated protoplasts of Lavatera thuringiaca

Embryogenic cell suspensions of Lavatera thuringiaca L. were established from leaf petiole and shoot regeneration was achieved when cells were plated on medium without growth regulators. We tested three methods for protoplast culture, isolated from a one-year old embryogenic cell suspension, to determine the best conditions for L. thuringiaca protoplast culture and shoot regeneration. The highest protoplast plating efficiency was obtained with the agaroseembedded method, reaching 30%, while the nursing culture method gave 5% when the protoplasts were plated over Whatman paper No. 2. However, the same nursing culture failed to produce protoplast-derived microcalluses when the protoplasts were plated on a nitrocellulose filter. The liquid thin layer method gave the lowest plating efficiency with only 0.5%. Shoot regeneration from protoplast-derived microcalluses was achieved in two steps; first, globular embryo development was favored in medium low in auxin (2,4-d and BA at 0.01 and 0.05 mg 1^-1, respectively), second, the globular embryos further differentiate into shoots in medium without growth regulators or in medium containing GA₃ (0.5 to 1.0 mg 1^-1).Abbreviations 2,4-d 2,4-dichlorophenoxyacetic acid - BA benzyladenine - GA₃ gibberellic acid - NAA -naphthaleneacetic acid - IBA indole-3-butyric acid     

Factors influencing regeneration from protoplasts of Asparagus densiflorus cv. Sprengeri

This article describes conditions to optimize the yield of viable protoplasts from callus tissue of Asparagus densiflorus cv. Sprengeri and their subsequent regeneration into plantlets. Callus tissue was initiated by culturing spear sections (5–7 mm) on Murashige and Skoog (MS) medium supplemented with 0.8% (wt/vol) Bacto agar, 3% (wt/vol) sucrose, 0.5 mg/l each of nicotinic acid, pyridoxine-HCl, and thiamine-HCl, 1 mg/l p-chlorophenoxyaceticacid (pCPA) and 1 mg/l 6-benzylaminopurine (BAP). The maximum protoplast yield was obtained in a mixture of 1% (wt/vol) Cellulysin, 0.8% (wt/vol) Rhozyme HP 150 and 0.3% (wt/vol) Macerase, dissolved in cell protoplast wash salt solution with 7 mm CaCl₂ ^.2H₂O, 3 mm MES, 0.6 m glucose, and 0.1 m mannitol. First divisions were observed after 3–4 days of initial culture. The plating efficiency was highest (7.8%) in half-strength MS semisolid medium containing 1 g/l glutamine, 0.6 m glucose, 0.1 m mannitol, 0.5 mg/l folic acid, 0.05 mg/l biotin, 2 mg/l ascorbic acid, 1 mg/l α-naphthaleneacetic acid, 0.5 mg/l zeatin, and 0.1% (wt/vol) Gelrite. Protoplast-derived microcolonies and microcalli were cultured on the same medium on which the primary callus culture was initiated. After 10–12 weeks, calli were transferred to shoot regeneration medium containing MS salts, 1 mg/l BAP, 0.5 mg/l pCPA and 0.2% Gelrite. Shoots (3–4 cm) were then transferred to MS rooting medium with 2 mg/l indole-3-butyric acid, and 0.2% Gelrite. Plantlets were obtained within 4–5 weeks. Received: 9 August 1995 / Revision received: 27 June 1997 / Accepted: 17 July 1997     

Factors influencing protoplast isolation from Coffea arabica cells

Cultured plant cells such as Coffea arabica L. cells, accumulate low concentration of secondary metabolites. One way to obtain high-producing plant cell cultures is to prepare single cell clones by using protoplast systems. Identification of limiting factors should facilitate the development of an isolation procedure that can generate adequate yields of intact and viable protoplasts Coffea arabica L. suspension cells. The most suitable conditions for protoplasting were as follows: 6 g of fresh tissue were plasmolysed in 100 ml of K ₃ salts (Nagy & Maliga 1976) containing 0.5 M sucrose for 1 h at 24°C. Then, 1 g of preplasmolysed cells were incubated in 10 ml of cellulase R10 (1%), macerozyme R10 (0.8%) and driselase (0.5%) in preplasmolysis medium. The protoplasts were collected and purified after 15 h of lytic reaction in the dark, at 28°C. More than 75% and 95% of the cells were converted into protoplasts when 5 and 8 day-old suspensions respectively were used for the release step. A number of viable protoplasts ranging from 3.5×10⁶ to 4.6×10⁶ P g^-1 fresh weight was obtained corresponding to an increase by a factor 10 to 15 of the protoplast yield obtained by Acuna & De Pena (1991).Abbreviations BAP 6-benzylamino purine - BSA Bovine Serum Albumin - 2,4-d 2,4-dichlorophenoxyacetic acid - FDA fluorescein diacetate - MES 2-(N-morpholino)ethanesulfonic acid - NAA naphthalene acetic acid - PI propidium iodide - PCV Packed Cell Volume - fw fresh weight     

Plant regeneration from callus and protoplasts in Medicago polymorpha

Seventeen ecotypes of the wild species Medicago polymorpha adapted to a Sardinian (Italy) environment have been evaluated for their response to tissue culture. The accession Samughero-Albi was the more respondent for callus induction and, together with Usassai, showed the highest regeneration capacity on media containing 1 mg l^-1 2iP and 0.1 mg l^-1 IAA. The morphogenetic response was also affected by the explant source. The hypocotyl-derived-calli were the best regenerating tissues. Regenerated plantlets were difficult to root and it was possible to obtain plants with a well developed root system only after 5–7 weeks of culture on media containing 2iP and IAA both at 0.2 mg l^-1. Mesophyll cells were the best protoplast yielding source but only those isolated from roots were able to divide and to regenerate plants. Results are discussed in relation to the genotype specificity for the morphogenetic response and the feasibility of using M. polymorpha in the somatic hybridization with M. sativa.Abbreviations NAA -naphthaleneacetic acid - 6-BAP 6-benzylaminopurine - 2,4-d 2,4-dichlorophenoxyacetic acid - 2iP N⁶-²-isopentenyl-adenine - IAA indole-3-acetic acid - GA₃ gibberellic acid - GFMS growth regulator free MS medium - Prol proline - Malt maltose     

Studies of cotyledon protoplast cultures from Brassica napus,B. campestris and B. oleracea. I: Cell wall regeneration and cell division

Protoplasts isolated from cotyledons of a number of cultivars of Brassica napus, B. campestris and B. oleracea were cultured in different media to study the characteristics of cell wall regeneration and cell division at early stages of culture. Time course analysis using Calcolfluor White staining indicated that cell wall regeneration began in some protoplasts 2–4 h following isolation in all cultivars. 30–70% of cultured cotyledon protoplasts exhibited cell wall regeneration at 24 h and about 60–90% at 72 h after the initiation of culture. Results also indicated that a low percentage (0.4–5.4%) of cultured cotyledon protoplasts entered their first cell division one day after initial culture in all twelve cultivars. The percentage of dividing cells increased linearly up to 40% from 1 to 7 day, indicating that cotyledon protoplasts of Brassica had a high capacity for cell division. Factors that influence the level of cell wall regeneration and cell division during cotyledon protoplast culture have been investigated in this study. Cotyledons from seedlings germinated in a dark/dim light regime provided a satisfactory tissue source for protoplast isolation and culture for all Brassica cultivars used. The percentages of protoplasts exhibiting cell wall regeneration and division were significantly influenced by cultivar and species examined, with protoplasts from all five cultivars of B. campestris showing much lower rates of cell wall regeneration than those of B. napus and B. oleracea over 24–120 h, and with the levels of cell division in B. napus cultivars being much higher than those in B. campestris and B. oleracea over 1–9 days. The capacity of cell wall regeneration and cell division in cotyledon protoplast culture of the Brassica species appears under strong genetic control. Cell wall regeneration in protoplast culture was not affected by the culture medium used. In contrast, the composition of the culture medium played an important role in determining the level of cell division, and the interaction between medium type and cultivars was very significant.Abbreviations BA benzylaminopurine - CPW Composition of Protoplast Washing-solution - CW Calcolfluor White - EDTA ethylenediamine-tetraacetic acid - KT Kinetin - Md MS modified Murashige and Skoog medium - 2,4-d 2,4-dichlorophenoxyacetic acid - NAA -naphthaleneacetic acid - IAA indole-3-acetic acid - PAR photosynthetically active radiation - SDS sodium dodecyl sulfate     

Effects of spinal transection on presynaptic markers for glutamatergic neurons in the rat

To evaluate the hypothesis that glutamic acid may be the neurotransmitter of descending, excitatory supraspinal pathways, the uptake and release ofl-[³H] glutamate and the levels of endogenous glutamate were measured in preparations from rat lumbar spinal cord following complete mid-thoracic transection. Following transection, the activity of the synaptosomal high-affinty glutamate uptake process was increased in both dorsal and ventral halves of lumbar cord between 1 and 14 days after transection and returned to control levels by 21 days posttransection. At 7 days, the increased activity of the uptake process forl-[³H] glutamate resulted in elevation ofV _max with no significant alteration inK _t as compared to age-matched controls. Depolarization-induced release ofl-[³H]glutamate from prelabeled slices did not differ significantly from control in the lesioned rat except at 21 days after lesion when the amount of tritium release was significantly greater in the transected preparations than in control. Amino acid analysis of the lumbar cord from control and transected rats indicated only a 10% decrease in the level of endogenous glutamate and no alterations in the concentration of GABA and glycine 7 days after lesion. These findings do not support the hypothesis that glutamate serves as a major excitatory neurotransmitter in supraspinal pathways innervating the lumbar cord of the rat.     

Influence of pH and sucrose concentration on nonenzymatic and enzymatic isolation of protoplasts from mature pollen of Tulbaghia violacea

Studies on protoplast isolation were carried out with mature pollen grains of Tulbaghia violacea Harv. (Liliaceae). Pollen grains drifted from surface sterilized crushed anthers were incubated either in a nonenzymatic solution composed of Nitsch medium and sucrose, or in the same solution supplemented with 1% cellulase Onozuka R-10 and 1% Macerozyme R-10. The process of protoplast release was studied as a function of pH and sucrose concentration of nonenzymatic and enzymatic solutions. For nonenzymatic isolation, the tested range of pH and sucrose concentration was from 3.3 to 13.1 and from 0.015 to 1.12 M (final solution osmolality from 200 to 1,300 mOs kg^-1 H₂O), respectively. In the former case, the release of protoplasts occurred only at nonphysiological pH (12.2 to 13.1) and could be observed after several seconds to 120 min, depending on pH and sucrose concentration of medium. Under enzymatic incubation, viable protoplasts were released more rapidly (3 to 35 min) and in more physiological conditions, the optimum being pH 5.8 and final medium osmolality 652 mOs kg^-1 H₂O. Speed, manner of protoplast release, number and quality of protoplasts were dependent on interactions of pH and sucrose concentration.     

2004 SIVB Congress Symposium Proceedings “Thinking Outside the Cell”: Optimized Chemodiversity in Protoplast-derived Lines of St. John's Wort (<Emphasis Type="Italic">Hypericum perforatum</Emphasis> L.)

Summary A procedure for protoplast isolation and plant regeneration of St. John's wort has been developed to utilize cell-to-cell variability for optimum production of valuable medicinal compounds. Calluses, induced from hypocotyl segments of St. John's wort seedlings, were used for protoplast isolation, induction of sustained cell division, and ultimately, plant regeneration. Callus-isolated protoplasts at a density of 2.0×10⁵ per ml were embedded in 0.6% Na-alginate blocks and cultured in a medium containing modified Murashige and Skoog (MS) salts, 2.5 μM 6-benzylaminopurine (BA), 5.0 μMα-naphthaleneacetic acid (NAA), and 0.5 moll⁻¹ glucose. Protoplast-derived colonies formed compact calluses when transferred onto 0.35% gellan gum-solidified MS medium supplemented with 2.5 μM BA and 2.5 μM NAA. Shoot organogenesis from the protoplast-derived callus was induced on MS medium supplemented with 5 μM thidiazuron. Complete plantlets were obtained from the regenerated shoots on MS basal medium. A greater than 3-fold variation of antioxidant activity was observed among the protoplast-derived plantets and chemically distinct germplasm lines were selected on the basis of phytochemical profiles. The protoplast to plant regeneration protocol developed in this study provides the foundation for development of novel genotypes with potential expansion of the genetic diversity through somatic hybridization, and organelle transplantation.     

Studies on plant regeneration from cotyledonary protoplasts in Brassica campestris

Protoplasts isolated from both 7-day-old light-grown and 4-day-old dark/dim light-grown cotyledons of four Brassica campestris varieties (Arlo, Sonja, Bunyip and Wonk Bok) were cultured in three liquid media: modified K8P, modified MS and modified Pelletier's B to compare the capacities for cell division and plant regeneration. Following cell wall regeneration the cultured protoplasts from dark/dim light-grown cotyledons of four varieties showed rapid division and high frequency of cell division compared with those isolated from light-grown cotyledons. The frequencies of cell division were significantly influenced by varieties and culture media but only in cultured protoplasts isolated from dark/dim light-grown cotyledons. The interaction between varieties and media was also significant. Cell colonies formed within 7–14 days in protoplast cultures from dark/dim light-grown cotyledons, and calli subsequently grown on a solid medium developed shoots when transferred onto a regeneration medium. Three of four tested varieties (Arlo, Sonja and Bunyip) showed shoot regeneration within 2–3 months after protoplast isolation, with a high degree of reproducibility in Arlo and Bunyip. Regenerated shoots, which were induced to root on half-strength MS medium with 0.1 mg.l^–1 IBA, survived in soil and grew to produce siliques and set viable seeds in the greenhouse. The present report is the first to document the production of regenerated plants that set seeds in Brassica campestris from cotyledonary protoplasts.Abbreviations BAP benzylaminopurine - CPW Composition of Protoplast Washing-solution - 2,4-D 2,4-dichlorophenoxyacetic acid - EDTA ethylenediamine-tetraacetic acid - GA₃ gibberellic acid - IBA indole-3-butyric acid - IAA indole-3-acetic acid - MS Murashige and Skoog medium - NAA -naphthaleneacetic acid - KT kinetin - FDA fluorescein diacetate - SDS sodium dodecyl sulfate     

The effect of co-cultivation and selection parameters on <Emphasis Type="Italic">Agrobacterium</Emphasis>-mediated transformation of Chinese soybean varieties

In the present study, an efficient Agrobacterium-mediated gene transformation system was developed for soybean [Glycine max (L.) Merrill] based on the examinations of several factors affecting plant transformation efficiency. Increased transformation efficiencies were obtained when the soybean cotyledonary node were inoculated with the Agrobacterium inoculum added with 0.02% (v/v) surfactant (Silwet L-77). The applications of Silwet L-77 (0.02%) during infection and l-cysteine (600 mg l⁻¹) during co-cultivation resulted in more significantly improved transformation efficiency than each of the two factors alone. The optimized temperature for infected explant co-cultivation was 22°C. Regenerated transgenic shoots were selected and produced more efficiently with the modified selection scheme (initiation on shoot induction medium without hygromycin for 7 days, with 3 mg l⁻¹ hygromycin for 10 days, 5 mg l⁻¹ hygromycin for another 10 days, and elongation on shoot elongation medium with 8 mg l⁻¹ hygromycin). Using the optimized system, we obtained 145 morphologically normal and fertile independent transgenic plants in five important Chinese soybean varieties. The transformation efficacies ranged from 3.8 to 11.7%. Stable integration, expression and inheritance of the transgenes were confirmed by molecular and genetic analysis. T₁ plants were analyzed and transmission of transgenes to the T₁ generation in a Mendelian fashion was verified. This optimized transformation system should be employed for efficient Agrobacterium-mediated soybean gene transformation.     

Enhancement of xylitol productivity and yield using a xylitol dehydrogenase gene-disrupted mutant of Candida tropicalis under fully aerobic conditions

The effects of glycerol and the oxygen transfer rate on the xylitol production rate by a xylitol dehydrogenase gene (XYL2)-disrupted mutant of Candida tropicalis were investigated. The mutant produced xylitol near the almost yield of 100% from d-xylose using glycerol as a co-substrate for cell growth and NADPH regeneration: 50 g d-xylose l⁻¹ was completely converted into xylitol when at least 20 g glycerol l⁻¹ was used as a co-substrate. The xylitol production rate increased with the O₂ transfer rate until saturation and it was not necessary to control the dissolved O₂ tension precisely. Under the optimum conditions, the volumetric productivity and xylitol yield were 3.2 g l⁻¹ h⁻¹ and 97% (w/w), respectively.     

Tissue culture response in various wild and cultivated Solanum germplasm accessions for exploitation in potato breeding

The response to different in vitro methods for use in potato breeding has been evaluated in 11 genotypes of 5 Solanum species, S. etuberosum, S. lycopersicoides, S. maglia, S. rickii, and S. tuberosum. Callus induction and growth, and shoot regeneration were strongly influenced by the genotype, explant source, and medium utilized. Furthermore, considerable differences among the 11 genotypes were found both in plating efficiency and shoot regeneration from protoplast culture. Some interesting correlations were found between different tissue culture responses, suggesting linkage and/or pleiotropic effect of genes. The potential application to potato breeding of the in vitro techniques analyzed is discussed.Abbreviations BA 6-benzylaminopurine - GA₃ gibberellic acid - NAA naphthaleneacetic acid - MS Murashige & Skoog (1962) - 2,4-d dichlorophenoxyacetic acid     

Winged-bean protoplasts: Isolation and culture to callus

A system was developed for protoplast isolation and culture from suspension cultured cells of winged bean,Psophocarpus tetragonolobus. Cells from a three-day-old suspension were incubated in an enzyme mixture containing 6% cullulysin, 1% Macerase, 1% desalted Rhozyme, 0.4M sorbitol, and 0.1M CaCl₂ at pH 5.5. Average yields of protoplasts were 6.5 × 10⁶ per gram fresh weight of cells. Protoplasts were cultured in modified B5 medium containing 68.4 g/l glucose, 250 mg/l xylose, 0.1 mg/l 2,4-D, 0.5 mg/l BAP, 250 mg/l N-Z amine type AS, and 20 ml/l coconut water. After 24 h of culture, the protoplasts had synthesized a new wall, and in three days had begun division. The optimum plating density was 1–2 × 10³ protoplasts/ml. The division frequency ranged between 40%–60% for most experiments with a high of 72% in one experiment. After three weeks, cell colonies could be transferred to solid MS medium containing N-Z amine and coconut water where callus developed. This protoplast system is technically comparable to soybean for experiments concerned with genetic manipulation involving legumes.     

Endothelial heparan sulphate: Compositional analysis and comparison of chains from different proteoglycan populations

From cultures of human umbilical vein endothelial cells incubated with³H-glucosamine or³⁵S-sulphate, we have purified three heparan sulphate proteoglycans: 1) a low density (1.31 g/ml) proteoglycan from the cell extract, 2) a low density proteoglycan from the medium, and 3) a high density (>1.4 g/ml) proteoglycan from the medium. The disaccharide composition of heparan sulphate chains from the low density proteoglycan of the medium was examined, using specific chemical and enzymic degradations followed by gel chromatography and strong anion exchange HPLC. Chains released from each of the different proteoglycan populations were then compared by gel chromatography and gradient polyacrylamide gel electrophoresis before and after various specific degradations. The results indicate that heparan sulphate from human endothelial cells are large polymers (MW>50,000) of low overall sulphation (32–35%N-sulphated glucosamine and an N/O-linked sulphate ratio of 2.0) with rare and solitary heparin-like disaccharides. Heparan sulphate from the different proteoglycan populations appeared to have similar structure except that chains from the high density fraction were larger polymers.Abbreviations HSPG heparan sulphate proteoglycan - DSPG dermatan sulphate proteoglycan - GlcNAc(6S) N-acetylglucosamine 6-sulphate - GlcNAc6R glucosamine with either-OH or-OSO₃ at C-6 - GlcNR glucosamine with either-SO₃ or-COCH₃ as N-substituent - GlcNSO₃ N-sulphated glucosamine - GlcNSO₃(3S) N-sulphated glucosamine 3-sulphate - GlcA d-glucuronic acid - IdoA l-iduronic acid - IdoA(2S) iduronic acid 2-sulphate - HexA hexuronic acid - DHexA hexuronic acid with a 4,5-double bond - Xyl xylose - SAX strong anion exchange - d.p. degree of polymerization (a disaccharide has d.p.=1 etc) - AUFS absorbance units full scale The codes used for proteoglycans denote in turn: C 2, low-density (1.35–1.28 g/ml) HSPG from the cell extract; M 1a, high density (>1.4 g/ml) HSPG fraction from the spent medium; M 2a, low-density (1.31 g/ml) HSPG from the spent medium [6].     

Development of a quantitative method for determination of the optimal conditions for protoplast isolation from cultured plant cells

An index [kv: average isolation rate of viable protoplast (number/ml min)] was established to evaluate the optimal conditions for protoplast isolation from cultured plant cells. The optimal conditions for protoplasts isolation from Nicotiana tabacum BY2 cultured cells could be determined on the basis of the kv [31.7 × 10³ (number/ml min)]. The colony-forming efficiency of the protoplasts was about 46%. The optimal conditions for protoplasts isolation from Catharanthus roseus [kv = 38.1 × 10³ (number/ml min)] and Wasabia japonica [kv = 14.2 × 10³ (number/ml min)] cultured cells could also be determined. Furthermore, a method for rapid regenerating cell wall of protoplast in liquid culture using alginate gel containing locust bean gum was developed.     

<Emphasis Type="Italic">Gluconobacter oxydans</Emphasis> NAD-dependent, <Emphasis Type="SmallCaps">D</Emphasis>-fructose reducing,polyol dehydrogenases activity: screening,medium optimisation and application for enzymatic polyol production

Gluconobacter oxydans LMG 1489 was selected as the best strain for NAD(P)-dependent polyol dehydrogenase production. The highest enzyme activities were obtained when this strain was cultivated on a medium consisting of 30 g glycerol l^–1, 7.2 g peptone l–1 and 1.8 g yeast extract l^–1. Two D-fructose reducing, NAD-dependent intracellular enzymes were present in the G. oxydans cell-free extract: sorbitol dehydrogenase, and mannitol dehydrogenase. Substrate reduction occurred optimally at a low pH (pH 6), while the optimum for substrate oxidation was situated at alkaline pHs (pH 9.5–10.5). The mannitol dehydrogenase was more thermostable than the sorbitol dehydrogenase. The cell-free extract could be used to produce D-mannitol and D-sorbitol enzymatically from D-fructose. Efficient coenzyme regeneration was accomplished by formate dehydrogenase-mediated oxidation of formate into CO₂.     

An Improved Protocol for Microcallus Production and Whole Plant Regeneration from Recalcitrant Banana Protoplasts (Musa spp.)

One important limitation for routine production of somatic hybrids in banana (Musa spp.) is the difficulty in protoplast regeneration. To facilitate protoplast regeneration in banana, the crucial step of microcallus production was optimised for the following parameters: nurse culture medium, duration of microcalli on nurse culture, differing nurse cells, and filter composition. A comparative study between two nurse cell media, Ma₂ and PCM, significantly affected the number of microcalli produced, which was 90 × 10³ per Petri dish on Ma₂ with 0.5 μM zeatin and 9.0 μM 2,4 D, and 30 × 10³ per Petri dish on PCM. Moreover, continuous production of microcalli was achieved on Ma₂ and the frequency of embryogenic cell aggregates was higher among microcalli on Ma₂-medium. However, no cell division was observed in protoplasts cultured on Ma₂ in which nurse cells were maintained for 2 weeks suggesting a requirement of effective presence of nurse cells for cell division of banana protoplasts. Use of a filter in conjugation with nurse cells resulted in greater than 7-fold increase in the number of microcalli. Flow cytometry analysis of 124 protoplast-derived plants showed the presence of hexaploid plants (mother plant is triploid) at the frequency of 4%. Together, these data are indicative of the complex factors involved in the regulation of plant cell division and growth. Each individual aspect must be optimised for efficient protocol development.     

Plant regeneration from mesophyll protoplasts of Lactuca perennis

Cultured protoplasts of young, unexpanded leaves of the wild lettuce, Lactuca perennis, divided to produce cell colonies in an agarose-solidified, modified MS medium with reduced levels of inorganic salts, together with 2,4-d, NAA and zeatin at 0.2, 0.1 and 0.5 mg 1^-1 respectively. Organogenesis followed the initial transfer of protoplastderived colonies to modified MS medium with 2,4-d, NAA and zeatin (0.1, 1.0 and 0.2 mg 1^-1 respectively) and then to full-strength MS medium with 6-BA and NAA (0.4 and 0.05 mg 1^-1). Shoots were rooted on agar-solidified MS medium lacking growth regulators. Regenerated shoots were established ex vitro, 21 weeks after protoplast isolation.Abbreviations 6-BA 6-benzyladenine - BSA bovine serum albumin - d days - 2.4-d 2,4-dichlorophenoxyacetic acid - f. wt. fresh weight - IAA indoleacetic acid - MES 2 [N-morpholino]ethane sulphonic acid - MS Murashige & Skoog (1962)