Polyethylene glycol and maltose enhance somatic embryo maturation in loblolly pine (Pinus taeda L.)

Summary A culture medium that can efficiently produce mature somatic embryos was developed for loblolly pine (Pinus taeda L.). The medium contained maltose as a carbohydrate source and polyethylene glycol as an osmoticum. This medium formulation significantly enhanced embryo maturation efficiency compared to a medium with only maltose, or with sucrose combined with polyethylene glycol. Maltose at 4% and polyethylene glycol at 6% resulted in the highest embryo maturation efficiency; an average of around 100 cotyledonary embryos were produced from 1 g of embryogenic tissue. These results suggested that previous ineffective embryo maturation in loblolly pine may be due to the lack of the proper combination of osmoticum and carbohydrate source. This embryo maturation method also improved morphology of cotyledonary embryos of loblolly pine.     

Improved formation of regenerable callus in isolated microspore culture of maize: impact of carbohydrates, plating density and time of transfer

 Pure fractions of maize (Zea mays L.) microspores at various densities were exposed to defined media containing different concentrations of maltose and sucrose. In general, lower carbohydrate concentrations (60, 90 g/l) yielded higher frequencies of embryo-like structures than a high concentration (120 g/l). Optimum cell density seemed to depend on the genotype, but densities above 80,000 microspores/ml led to reduced embryogenesis in all genotypes tested. Direct comparison of maltose and sucrose as carbohydrate source in the induction medium clearly demonstrated the superiority of maltose with regard to the regeneration frequency. For two out of three genotypes tested, maltose also enhanced the formation of embryo-like structures. The time of embryo transfer to callus induction media had a significant effect on regeneration frequency. Received: 26 September 1997 / Revision received: 5 November 1998 / Accepted 24 March 1999     

渗透剂对白刺花体细胞胚成熟及萌发的影响

该研究以蔗糖、麦芽糖、山梨醇及PEG(6000)为渗透剂,探讨了不同渗透剂对白刺花体细胞胚发育、胚成熟及萌发的影响。结果表明:白刺花下胚轴形成的胚性愈伤组织接种至MS+2,4-D 0.2 mg·L~(-1)+NAA 1.0 mg·L~(-1)+6-BA 2.0 mg·L~(-1)+TDZ 1.0 mg·L~(-1)+蔗糖40 g·L~(-1)+谷氨酰胺100 mg·L~(-1)+植物凝胶3g·L~(-1)的培养基上,体细胞胚发生率高达66. 21%,总胚数为79个; 7%蔗糖可使体细胞胚成熟率高达64.36%,同时也可提高多子叶畸形胚形成; 2%麦芽糖+2%山梨醇+4%蔗糖组合使体细胞胚成熟率最高达88.89%,畸形胚比例最低; 30 g·L~(-1)PEG培养时,体细胞成熟率最高,为82.35%;鱼雷期的体细胞胚最合适转接,可使体胚萌发率达90.58%,复合糖上培养得到的成熟体细胞胚生根率最高,为87.47%。这为实现白刺花体细胞胚育苗奠定了理论基础,并提供了可行的方案。     

Ammonium-nitrogen metabolism and nitrogen fixation in azotobacter vinelandii

The probable effect of increasing levels of ammonium nitrogen on the growth, efficiency of nitrogen fixation, and main cellular constituents of Azotobacter vinelandii was studied under shaking and static culture conditions. The presence of NH₄⁺-N up to 50 mgl^-1 level has no harmful effect on the multiplication as well as the yield efficiency ratio of the tested organism. A. vinelandii was able to fix dinitrogen in the presence of NH₄⁺-N when both nitrogen sources were available in the culturing medium. The efficiency of nitrogen fixation was affected by the initial presence of NH₄⁺-N in the medium, it was quite low at the highest level. The crude protein efficiency ratio was correlated inversely with the initial NH₄⁺-N concentration, whereas the total carbohydrate efficiency ratio as well as the total lipid efficiency ratio were positively correlated with the NH₄⁺-N concentration. The presence of NH₄⁺-N in the culturing medium has no essential influence on the qualitative composition of the amino acids in the Azotobacter cells.     

Effect of genotype,induction medium,carbohydrate source,and polyethylene glycol on embryogenesis in maize (<Emphasis Type="Italic">Zea mays</Emphasis> L.) anther culture

This study conducted two experiments involving in vitro anther culture of Zea mays L. The first experiment tested 46 maize genotypes, including inbred lines, single and three-way cross hybrids, and line A188 as control, in three different induction basal media (IMSS, N6 and YPm) for their androgenic responses. The results showed that the embryos were established 2–3 weeks after the anthers of the few responsive genotypes were cultured. Most responsive genotypes produced embryos in at least one of the three basal media; therefore, genotype is more important than the type of medium for androgenesis in maize. The mean number of anthers that developed to embryo ranged from 19 embryos per Petri dish in YPm medium for the cross (DH5 × DH7) genotype to 0 for some maize genotypes. In the second experiment, this research reports for the first time the effect of carbohydrates and polyethylene glycol (PEG) as a non-metabolized osmoticum on the embryogenesis anther culture of maize. The genotype DH5 × DH7 was used for this experiment, and the media were varied by altering sucrose, maltose, and PEG concentrations. Results showed that the maximum embryogenesis (32 embryos per Petri dish) was obtained by YPm basal medium supplemented with 60 gl^?1 sucrose + 0.0125 M PEG and 30 gl^?1 sucrose + 30 gl^?1 maltose + 0.0125 M PEG. The lowest rate of embryogenesis was observed in YPm basal medium with 60 gl^?1 maltose and 0.0125 or 0.025 M PEG. Sucrose or a high concentration of maltose was found to be necessary for embryogenesis in anther culture of maize. Therefore, the addition of low levels of PEG and/or different sugars in the experimental design appeared to improve the protocol currently available in the world, especially for anther embryo yield and haploid plant regeneration in maize.     

Ammonium-related metabolic changes affect somatic embryogenesis in pumpkin (Cucurbita pepo L.)

Somatic embryogenesis in pumpkin can be induced on auxin-containing medium and also on hormone-free medium containing 1 mM ammonium (NH₄⁺) as the sole source of nitrogen. Growth of NH₄⁺-induced embryogenic tissue was slow and caused considerable acidification of the culture medium. Small spherical cells with dense cytoplasma formed proembryogenic cell clusters that could not develop into late stage embryos. Buffering of NH₄⁺ medium with 25 mM 2-(N-morpholino)-ethane-sulfonic acid enhanced tissue proliferation, but no further differentiation was observed. Later stage embryos developed only after re-supply of nitrogen in form of nitrate or l-glutamine. Effects of nitrogen status and pH of culture media on ammonium assimilation were analyzed by following the activity of glutamine synthetase (GS) in relation to phenylalanine ammonia-lyase (PAL). Increased activity of GS and PAL in NH₄⁺ induced tissue coincided with significantly higher activity of stress-related enzymes superoxide dismutase (SOD) and soluble peroxidase (POD), indicating oxidative stress response of embryogenic tissue to NH₄⁺ as the sole source of nitrogen. In addition, considerable increase was observed in callose accumulation and esterase activity, the early markers of somatic embryogenesis. Activity of stress-related enzymes decreased after the re-supply of nitrate (20 mM) or Gln (10 mM) in combination with NH₄⁺ (1 mM), which subsequently triggered globular embryo development. Together, these results suggest that stress responses, as affected by nitrogen supply, contribute to the regulation of embryogenic competence in pumpkin.     

Morphogenesis in callus tissue ofMedicago sativa: The role of ammonium ion in somatic embryogenesis

Exogenously supplied ammonium ion is critical to alfalfa morphogenesis in vitro. In alfalfa, the ability to induce the formation of either roots or somatic embryos provided an opportunity to examine the effects of ammonium ion on each pattern of morphogenesis. Somatic embryo formation required a minimum of 12.5 mM NH ₄ ⁺ in regeneration medium for optimal expression. Root formation was inhibited by NH ₄ ⁺ levels of 50 mM and above, and occurred in the absence of exogenous NH₄ ⁺. At high levels of NH ₄ ⁺ somatic embryos were formed from cells exposed to the root-inducing combination of hormones. This observation suggests that the growth regulators and exogenously supplied ammonium ion comprise an interactive system controlling the in vitro pattern of alfalfa morphogenesis.     

Repetitive somatic embryogenesis and plant recovery in white clover

Summary Breeding and selection was used to generate a population of white clover (Trifolium repens L.) from cultivar Osceola with a high embryogenic capacity. Somatic embryos were obtained from immature cotyledons of white clover placed onto EC6 basal medium containing 40 mg L^–1 of 2,4-D and 6% sucrose. The effects of 2,4-D at 20 and 40 mg L^–1 and of the carbohydrates, sucrose and maltose, were evaluated for their influence in the establishment of repetitive somatic embryogenesis. To determine the optimal protocol for plant recovery from somatic embryos, the effects of MS vs. EC6 basal salts, sucrose vs. maltose, B5 vitamins vs. yeast extract, and inclusion or exclusion of activated charcoal were evaluated. Repeated subculture of white clover somatic embryos on EC6 basal medium containing 6% sucrose with 2,4-D at 20 or 40 mg L^–1 effectively maintains repetitive embryogenesis. Medium containing MS salts with 6% maltose as the carbohydrate source was the most efficient for plant recovery.     

Culture medium optimization for camptothecin production in cell suspension cultures of Nothapodytes nimmoniana (J. Grah.) Mabberley

The effect of culture medium nutrients on growth and alkaloid production by plant cell cultures of Nothapodytes nimmoniana (J. Grah.) Mabberley (Icacinaceae) was studied with a view to increasing the production of the alkaloid camptothecin, a key therapeutic drug used for its anticancer properties. Amongst the various sugars tested with Murashige and Skoog (MS) medium, such as glucose, fructose, maltose, and sucrose, maximum accumulation of camptothecin was observed with sucrose. High nitrate in the media supports the biomass, while high ammonium enhances the camptothecin content. Selective feeding of 60 mM total nitrogen with a NH₄ ⁺/NO₃ ^? balance of 5/1 on day 15 of the culture cycle results in a 2.4-fold enhancement in the camptothecin content over the control culture (28.5 μg/g DW). Furthermore, the sucrose feeding strategy greatly stimulated cell biomass and camptothecin production. A modified MS medium was developed in the present study, which contained 0.5 mM phosphate, a nitrogen source feeding ratio of 50/10 mM NH₄ ⁺/NO₃ ^? and 3 % sucrose with additional 2 % sucrose feeding (added on day 12 of the cell culture cycle) with 10.74 μM naphthaleneacetic acid and 0.93 μM kinetin. Finally, the selective medium has 1.7- and 2.3-fold higher intracellular and extracellular camptothecin content over the control culture (29.2 and 8.2 μg/g DW), respectively.     

The effect of glutamine and asparagine on net NH4 + uptake in young wheat plants

Wheat plants grown during 10 days in the absence of N were pretreated with 1.0 eq m^-3 of methionine, asparagine or glutamine and/or 1.0 eq m^-3 MSX⁴ or 0.17 eq m^-3 DON. Net NH₄ ⁺ uptake was measured both in the presence or in the absence of the amino acid or enzyme inhibitor used in the pretreatment. The effect of met, asn and gln on net K⁺ uptake was also studied using K⁺-depleted plants. Changes in the contents of root free NH₄ ⁺, asn, gln and the activities of GS, PEP-carboxylase, NAD⁺-GDH and NADH-GDH were determined. Net NH₄ ⁺ uptake in gln and asn pretreated plants was markedly, and sometimes completely suppressed provided uptake was measured in the presence of the amides. On the other hand, the met pretreated plants absorbed only 35% less NH₄ ⁺ than the control. When NH₄ ⁺ uptake was measured in the absence of the amino acids, only those plants pretreated with asn showed a marked suppression of net uptake during the first 120 min. None of the 3 amino acids tested significantly inhibited K⁺ uptake. Free NH₄ ⁺ concentration in roots of N-starved plants increased after 4 h incubation with gln, asn or MSX in the absence of external NH₄ ⁺. Nevertheless, no correlation was observed between root NH₄ ⁺ concentration and the extent of net NH₄ ⁺ uptake suppression. The inhibitory effect exerted by asn decreased when it was supplied together with MSX or DON. Pretreatments with gln or asn in the absence of external NH₄ ⁺ significantly increased the level of asn in the roots, while that of gln remained unchanged. It is concluded that asn and gln specifically suppress net NH₄ ⁺ uptake in wheat, although it is not clear wether they act only from the root exterior, or through an endogenous pool exhibiting fast turn-over.Abbreviations AUR ammonium uptake rate - DON 6-diazo-5-oxo-L-norleucine - GDH glutamic dehydrogenase - GOGAT oxoglutarate- glutamine aminotransferase - GS glutamine synthetase - MSX L-methionine sulfoximine - PEP phosphoenolpyruvate - PVPP polyvinylpolypyrrolidone     

Extracellular and intracellular chemical environments in relation to embryogenesisin vitro

Summary Tissue culture isolated from the root ofDaucus carota readily produced embryos when they were grown on a medium (M_s) containing relatively large amounts of NH₄ ⁺ and nitrate. Embryos were never formed on a second medium (M_w) which contained only nitrate in a low concentration. The cells of M_s-cultures always had a high level of NH₄ ⁺ while it was scarcely detected in M_w-cultures. Addition of either nitrate or glutamate to M_w resulted in the formation of embryos and also in the accumulation of a detectable amount of NH₄ ⁺ in the cells of the tissues. Although the occurrence of NH₄ ⁺ in the medium is not necessary for embryo formationin vitro it appears that a certain level of intracellular NH₄ ⁺ is a prerequisite for this process. Since there is a positive correlation between embryo formation and the contents in the cultures of both soluble and insoluble organic nitrogen, it is probable that NH₄ ⁺ is important for embryo formation because it is an essential substrate for the synthesis of organic nitrogen compounds such as amino acids and proteins. The ability to synthesize organic nitrogen from NH₄ ⁺ decreased conspicuously in the tissues which were cultured on M_s for long periods of time and had lost the capacity to form embryos. A certain level of K⁺ in culture media is necessary for optimal production of embryos on media with NH₄ ⁺, while Na⁺ has no effect on embryo formation.The authors are indebted to Mr. E.Mahn, Miss S.Semenoff, and Mrs. E.Bock for their technical assistances.     

Embryogenesis and plant regeneration of hot pepper (<Emphasis Type="Italic">Capsicum annuum</Emphasis> L.) through isolated microspore culture

We report high frequencies of embryo production and plant regeneration through isolated microspore culture of hot pepper (Capsicum annuum L.). Microspores cultured in modified NLN medium (NLNS) divided and developed to embryos. Globular and heart-shaped embryos were observed from 3 weeks after the beginning of culture, and many embryos reached the cotyledonary stage after 4 weeks of culture. These cotyledonary embryos developed to plantlets after transfer to solid B5 basal medium. We also optimized conditions for embryo production by varying the pretreatment media, the carbon sources, and culture densities. Heat shock treatment in sucrose-starvation medium was more effective than in B5 medium. Direct comparisons of sucrose and maltose as carbon sources clearly demonstrated the superiority of sucrose compared to maltose, with the highest frequency of embryo production being obtained in 9% (w/v) sucrose. Microspore plating density was critical for efficient embryonic induction and development, with an optimal plating density of 8 × 10⁴–10 × 10⁴/ml. Under our optimized culture conditions, we obtained over 54 embryos, and an average of 5.5 cotyledonary embryos when 10 × 10⁴ microspores were grown on an individual plate.     

The effectiveness of nitrogen sources in Feijoa somatic embryogenesis

Immature and mature zygotic embryos excised from Feijoa fruits were employed as explants and the effects of NH₄ ⁺ and NO₃ ^– ionic concentration in basal LPm culture medium supplemented with 2,4-D (10 M) were evaluated. Moreover, the addition of 4 mM of Asn, Gln, and Arg, and levels of Gln (0 to 8 mM) were tested. The original NH₄ ⁺ and NO₃ ^– concentration present in the LPm culture medium supplemented with Gln (4 mM) resulted in the highest somatic embryo number from immature zygotic embryos. For mature zygotic embryos, the addition of Asn, Gln or Arg to the basal LPm culture medium resulted in improved somatic embryogenesis induction. Ten weeks in culture allowed the highest somatic embryo number when mature zygotic embryos were used as explant. Half-strength MS culture medium supplemented with BAP (0.5 M) enhanced the conversion of somatic embryos to plantlets.     

Effect of ammonium ion on morphogenesis from cultured cotyledon explants ofPanax ginseng

Cotyledon expiants ofPanax ginseng were cultured on modified Murashige and Skoog medium with various concentrations of NH₄C1 and KNO,. Morphogenesis such as somatic embryo, embryogenic callus, or adventitious root formation from cotyledon expiants differently occurred according to the concentrations of NH/ and NO₃. Somatic embryos were actively formed in a moderate concentration of NH₄ ⁺ (20 mM) in combination of NO₃, but in a high concentration of NH₄ ⁺ (60 mM), only embryogenie calli were formed. In little or no NH₄ ⁺, adventitious roots were formed at a high rate. The influence of NO₃ on those morphogenesis was slight but combination of NO₃ with NH₄ ⁺ was indispensable since the cotyledon expiants were necrotized on medium containing only NH₄ ⁺ as a nitrogen source. Histological observation revealed that somatic embryo and embryogénie callus formation occurred from the same origin (cotyledon epidermis), whereas, adventitious roots were originated from the cells near vascular strands.     

Optimization of direct somatic embryogenesis from mature zygotic embryos ofPanax ginseng C. A. Meyer

Culture conditions were optimized for somatic embryogenesis ofPanax ginseng. The highest frequency of embryo formation was obtained when tissues were excised from the middle region of the cotyledon segments of zygotic embryos. Only treatment with light could stimulate the formation of single-type somatic embryos, whereas multiple-type somatic embryos and calli were observed under dark conditions. The highest production of somatic embryos was found with an NH₄ ⁺:NO₃ ratio of 21:39. Among the tested media (MS, B5, and SH), maximum formation of somatic embryos was obtained when cotyledon expiants were cultured on an 1% agar MS medium supplemented with 5% sucrose. Regenerated ginseng plantlets were transferred to an autoclaved soil mixture in the greenhouse. These transformants showed no detectable variations in their morphology or growth characteristics compared with the donor plant.     

The effect of sugars on niger embryogenesis and plant regeneration in anther culture

The influence of different sugars (sucrose, maltose, glucose and fructose, 0.05–0.5 M) on embryogenesis and plant regeneration from cultured anthers of niger [Guizotia abyssinica (L. f.) Cass.] have been studied. Among the different sugars tested, 0.2 M sucrose was the best for embryo induction and plant regeneration. Maximum of 57 embryos per 60 anthers were induced on embryo induction medium [Gamborg’s B5 medium supplemented with 10 μM 2,4-dichlorophenoxyacetic acid (2,4-D), 2 μM kinetin (KIN)] containing 0.2 M sucrose. Embryo differentiation was achieved on B5 medium supplemented with 0.5 μM benzyladenine (BA) and 0.09 M sucrose. Embryo maturation was on B5 medium containing 10 μM abscisic acid (ABA) and 0.09 M sucrose. Embryo germination was achieved on B5 medium with 0.09 M sucrose. Embryos that were developed on B5 medium supplemented with 0.2 M sucrose showed highest frequency (68 %) of plant regeneration.     

High frequency embryogenesis in immature zygotic embryos of sunflower

In the present investigation, nutritional requirements for induction of a high frequency of well formed somatic embryos (SEs) from zygotic embryos (ZEs) of sunflower were assessed. Variables like genotype, embryo size (0.5–10 mm), sucrose concentration (30–240 g l⁻¹), carbohydrate source (sucrose, glucose, maltose), agar strength (0.2–1.0%), basal media (MS, Gamborg, Nitsch, White), photoperiod (light/dark) and temperature (20–36°C) were tested. All these variables except photoperiod had significant effect on the frequency of embryogenesis. Highest frequency of embryogenesis was facilitated by Gamborg basal salt media, 120–210 g l⁻¹ sucrose, 0.8–1.0% agar, smaller sized embryos (0.5–2 mm) and incubation temperature of 28–32°C. In addition to these, growth regulator combinations (2,4-D, 2,4-D+kinetin, BA+NAA) in varying concentrations were tried. Media supplemented with 2,4-D promoted direct embryogenesis, BA+NAA facilitated formation of single/multiple shoots while there was no response on 2,4-D+kinetin supplemented media. Zygotic embryos with well differentiated embryos were transferred to growth regulator free half strength MS medium for whole plantlet development. This revised version was published online in June 2006 with corrections to the Cover Date.     

Culture medium optimization for improved puerarin production by cell suspension cultures of Pueraria tuberosa (Roxb. ex Willd.) DC.

The effects of carbon, nitrogen, phosphate, and copper on cell growth and production of the isoflavone puerarin by suspension cultures of Pueraria tuberosa (Roxb. ex. Willd.) DC were investigated. Among the various sugars evaluated (glucose, galactose, fructose, maltose, and sucrose), use of sucrose in the medium led to the maximum accumulation of puerarin. A sucrose-feeding strategy in which additional sucrose was added to the flasks 15?d into the culture cycle stimulated both cell biomass and puerarin production. The maximum production of puerarin was obtained when a concentration balance of 20:60?mM NH ₄ ⁺ /NO ₃ ^? was used as the nitrogen source. Alteration in the concentration balance of nitrogen components (NH ₄ ⁺ /NO ₃ ^? 60:20?mM) or the use of either NH ₄ ⁺ or NO ₃ ^? alone decreased biomass production and puerarin accumulation compared with the control culture (NH ₄ ⁺ /NO ₃ ^? 20:20?mM). High amounts of phosphate (2.5 and 5?mM) in the medium inhibited puerarin production whereas 0.625?mM phosphate promoted puerarin production (68.3???g/g DW on day?25). An increase in Cu²⁺ concentration from 0.025 to 0.05?mg/l in the P. tuberosa cell culture medium resulted in a 2.2-fold increase in puerarin production (up to 141???g/g DW on day?25) but reduced cell culture biomass.     

Acceleration of the rate of fermentation by Saccharomyces cerevisiae in the presence of ammonium ion

The rate of fermentation of both d-glucose and maltose in a defined medium by a brewing strain of Saccharomyces cerevisiae was found to be dependent on the availability of NH₄⁺. The glycolytic rate did not correlate with intracellular NH₄⁺and activation by NH₄⁺was blocked by cycloheximide. The ability of several amino acids to activate glycolysis followed the same order as their effectiveness as sole sources of nitrogen. It therefore seems that NH₄⁺does not stimulate fermentation through direct activation of glycolytic enzymes, but through its function as a substrate for protein synthesis.     

The effect of the source of inorganic nitrogen on growth and enzymes of nitrogen assimilation in soybean and wheat cells in suspension cultures

Summary Soybean (Glycine max L. cv. Mandarin) and wheat (Triticum monococcum L.) cells were grown in media with NO₃ ^- plus NH₄ ⁺ (B₅) and NO₃ ^- without NH₄ ⁺ (B₅-NH₄) as nitrogen sources. Changes in pH, [NO₃ ^-] and [NH₄ ⁺] in media, and dry weight, protein content, nitrate reductase (NR) and glutamate dehydrogenase (GDH) in the cells were followed for about 170 h. With both NH₄ ⁺ and NO₃ ^- in the medium, NH₄ ⁺ was utilized very quickly. Soybean cells grew poorly in the absence of NH₄ ⁺ while wheat cells grew equally well on media with or without NH₄ ⁺. When soybean cells were grown in medium with NO₃ ^- plus NH₄ ⁺, dry weight and NR activity remained relatively low for several hours after which both increased rapidly. This coincided with the time NH₄ ⁺ was depleted from the medium. In the absence of NH₄ ⁺, soybean cell growth and NR activity remained low. NR activity in wheat cells, and GDH activity in soybean and wheat cells, did not vary significantly in the presence or absence of NH₄ ⁺.This work was supported by a grant in aid of research from the National Research Council of Canada to one of us (J. K.). NRCC No. 12521.