Exogenous abscisic acid fate during maturation of hybrid larch (Larix×leptoeuropaea) somatic embryos

The maturation of somatic embryogenesis of hybrid larch is an essential step for plantlet production. ABA controls not only synchronicity of maturation, but has important consequences on eventual viability of the plantlet. To gain understanding of the role of this plant growth regulator during the maturation process of hybrid larch somatic embryos, we studied the incorporation of [ 3 H]-(±)-abscisic acid [tritiated (±)-ABA] over 6 weeks of culture. Results showed a rapid incorporation of label into the tissues directly in contact with the culture medium. Accumulation of tritiated (±)-ABA occurred mainly in the maturing somatic embryos found at the periphery of the embryogenic mass but not in direct contact with the culture medium. Tritiated (±)-ABA was mainly conjugated as a glucose ester form. Rates of tritium incorporation indicated a significant build-up in tritiated (±)-ABA metabolization at the third week of culture. The weekly measurement of labelling in the culture medium over 6 weeks showed no localized exhaustion of tritiated (±)-ABA in positions where the embryogenic masses were placed in Petri dishes. The calculated ABA internal content of the maturing somatic embryos was similar to published ELISA measurements of ABA. This result suggests an absence of endogenous ABA synthesis by somatic embryos of hybrid larch during maturation.     

Analysis of the effects of maturation treatments on the probabilities of somatic embryo germination and plantlet regeneration in pistachio using a linear logistic method

Embryogenic masses (EMSes) of pistachio (Pistacia vera L.) were proliferated in liquid Murashige and Skoog (MS) medium without growth regulators. To determine the effects of benzylaminopurine (BAP), racemic (±) abscisic acid (ABA) and sucrose treatments during maturation on the subsequent germination and plantlet regeneration, clusters of mature somatic embryos were transferred from maturation medium onto the surface of 0.7% agar-solidified Murashige and Skoog medium. Neither germination nor plantlet development medium contained BAP or ABA. Germination studies were carried out using 80 somatic embryos at every combination of four sucrose concentrations, three maturation periods and either five concentrations of BAP or four of ABA, and the numbers germinating were recorded after four durations of culture. A similar experimental plan was used to study plantlet regeneration. The number of germinated somatic embryos increased markedly with duration of the culture on germination medium, and was influenced by the concentrations of BAP or ABA in the maturation medium; the concentration of sucrose in this medium had little influence. Plantlet regeneration also increased with culture duration and was reduced at the highest levels of BAP or ABA; with ABA, the probability of plantlet regeneration was lower for longer maturation periods. ABA and BAP have similar effects on somatic embryo germination (except at the highest levels used), but BAP is superior to ABA for promoting subsequent plantlet regeneration. Linear logistic models were used to investigate the significance of the treatments, and to estimate the optimum conditions for germination and plantlet regeneration. This revised version was published online in June 2006 with corrections to the Cover Date.     

An improved method for somatic plantlet production in hybrid larch (Larix × leptoeuropaea): Part 2. Control of germination and plantlet development

Germination and plantlet development in somatic embryos of Larix x leptoeuropaea were affected by the duration of the maturation treatment and the concentrations of sucrose and abscisic acid in the maturation media. Extension of the maturation period from 3 weeks to 4 weeks resulted in a significant decrease in germination and plantlet development frequencies. There was no significant effect of abscisic acid concentration on either the number of somatic embryos germinated or the number of plantlets obtained, but it affected the rapidity of the epicotyl development. Sucrose at 0.2 M, applied during maturation, was significantly more beneficial in attaining high germination rates than at 0.1 M. High germination rates (92 and 93%) and plantlet development rates (74 and 80%) were achieved when somatic embryos were matured for a 3-week period on media with either 40 or 60 M abscisic acid, respectively, and 0.2 M sucrose prior to transfer to the growth regulator-free germination medium. Two acclimatization methods were applied: the first required 10 to 12 weeks and ensured 97% plantlet survival under greenhouse conditions; the second required 2–3 weeks and ensured 86% plantlet survival. This represents the first detailed study of the effects of maturation regimes on the recovery of somatic embryo-derived plants of Larix.Abbreviations ABA abscisic acid - IBA indolebutyric acid - 2,4-d 2,4-dichlorophenoxyacetic acid - EM embryonal mass     

Precociously germinating somatic embryos of Vitis vinifera have lower ABA and IAA levels than their germinating zygotic counterparts

Somatic embryos of Vitis vinifera (cv. Grenache noir) develop normally up to the torpedo stage, but they germinate precociously and form viable plantlets with very low frequency. Because a peak in abscisic acid (ABA) in mid‐embryogenesis could be one factor preventing precocious germination during normal seed development, we followed the development of ABA content concurrent with that of the somatic embryos. Additionally, we measured changes in indoleacetic acid (IAA) levels. We also compared the levels of both hormones during precocious germination of somatic embryos and during normal germination of their zygotic counterparts. Somatic embryos were able to accumulate ABA and IAA throughout their development but no peak in ABA concentration was detected during embryogenesis. This suggests that the switch from mid‐ to late‐embryogenesis is not triggered. Furthermore, during precocious germination, i.e. from the torpedo stage onwards, the concentrations of ABA and IAA in somatic embryos were much lower than during normal germination of zygotic embryos. Thus, it is likely that when precocious germination occurs, grape somatic embryos do not accumulate ABA and/or IAA in sufficient concentrations to support normal plantlet development. Therefore, for grape somatic embryos we propose that prevention of precocious germination, i.e. triggering late‐embryogenesis, is attainable by an ABA treatment followed by slow desiccation, as already shown for conifer somatic embryos. Our results also suggest that the role of ABA and IAA for improving normal germination after imposed quiescence should be investigated.     

Factors influencing somatic embryo maturation, high frequency germination and plantlet formation in Terminalia chebula Retz.

The factors influencing somatic embryo maturation, high frequency somatic embryo germination, and plantlet formation were studied in Terminalia chebula Retz. Maturation of somatic embryo were influenced by a number of factors such as in vitro culture passage, concentrations of sucrose, levels of abscisic acid (ABA), basal media and media additive combinations. Maximum frequency of somatic embryo maturation (57.22 ± 2.02), was obtained on MS medium supplemented with 50 g/l sucrose. Different factors such as strengths of MS nutrients, plant growth regulators, media additives and their combinations controlling somatic embryo germination and plantlet formation were studied. High frequency of germination and plantlet formation (58.80 ± 1.47) were achieved by subsequent subculture of mature somatic embryos on MS medium containing 30 g/l sucrose and 0.5 mg/l benzyladenine (BA). However, although duration of in vitro passage of the callus tissue was critical, contribution of the combinations of plant growth regulators and media additives showed nugatory effect on somatic embryo maturation and germination as evident from variable responses.     

Dormancy in somatic embryos and seeds ofVitis: changes in endogenous abscisic acid during embryogeny and germination

Abscisic acid (ABA) in extracts of somatic embryos and seeds of Gloryvine (Vitis vinifera L.xV. rupestris Scheele) was measured by gas chromatography-mass spectrometry-selected ion monitoring using deuterated ABA, (±)-[C-3Me-²H₃]ABA, ([²H₃]ABA) as internal standard. The ABA content increased rapidly during embryogeny (0.035 ng/embryo at the globular stage to 0.22 ng/embryo at the mature stage). The level of ABA in the tissues of somatic embryos, expressed in ng/mg dry weight, decreased from the globular stage (0.76 ng/mg) to the mature stage (0.25 ng/mg). Chilling (4° C) induced normal germination of seeds and mature somatic embryos and precocious germination of globular, heart-shaped and torpedoshaped somatic embryos. In all cases chilling led to a marked reduction in endogenous ABA. Exogenous (±)-ABA inhibited the germination of chilled somatic embryos.Abbreviations ABA abscisic acid - [²H₃]ABA (±)-[C-3Me-²H₃]-abscisic acid - BHT 2,6-di-t-butyl-4-methylphenol - GC-MS gas chromatography-mass spectrometry - Me-ABA and Me-[²H₃]ABA methyl esters of ABA and [²H₃]ABA, respectively - SIM selected ion monitoring     

Effect of exogenous ABA on somatic embryo maturation and germination in Persian walnut (<Emphasis Type="Italic">Juglans regia</Emphasis> L.)

Low efficiency of embryo maturation, germination and conversion to plantlets is a major problem in many species including Persian walnut. We studied the effects of abscisic acid (ABA) and sucrose, on the maturation and germination of Persian walnut (Juglans regia) somatic embryos. Individual globular somatic embryos were grown on a maturation medium supplemented with different combinations of ABA and sucrose for ca. 1 month, until shoot meristems and radicles had developed. White and opaque embryos in late cotyledonary stage were subjected to desiccation after the culture period on maturation media. The number of germinated somatic embryos was influenced by the concentrations of ABA in the maturation medium. The best treatment for germination, in which both shoot and root were developed contained 2 mg l⁻¹ ABA and resulted in 41% conversion of embryos into plantlets. Regeneration was reduced at higher levels of ABA. While ABA always reduced the rate of secondary embryogenesis, treatments containing 4.0% sucrose significantly increased the number of secondary embryos. On the other hand, sucrose had little influence on maturation. Normal and abnormal embryos were verified anatomically.     

Modulation of somatic embryogenesis in early and late-stage embryos of wheat (Triticum aestivum L.) under the influence of (±)-abscisic acid and its analogs

Zygotic embryos from ten spring wheat (Triticum aestivum L.) genotypes were tested for embryogenic callus induction in the presence or absence of externally supplied (±)-abscisic acid (ABA) and two of its analogs, methyl abscisate and methyl epoxy-beta-ionylideneacetate. (±)-ABA and its analogs suppressed precocious germination of cultured late-stage embryos and promoted embryogenic callus induction. A significantly greater number of plants was regenerated from calli induced in the presence of ABA and ABA analogs. Early-stage embryos when cultured in the presence of (±)-ABA showed a negative response. Possible roles of ABA with respect to the expression of somatic embryogenesis are discussed.Dedicated to Dr. Friedrich Constabel on the occasion of his 60th birthday     

Changes in ABA turnover and sensitivity that accompany dormancy termination of yellow-cedar (Chamaecyparis nootkatensis) seeds.

Yellow-cedar (Chamaecyparis nootkatensis [D. Don] Spach) seeds exhibit prolonged coat-imposed dormancy following their dispersal from the parent plant. Analyses were undertaken using S-(+)-[(3)H] abscisic acid (ABA) to monitor the capacity of embryos to metabolize ABA following their isolation from seeds subjected to various dormancy-breaking and control treatments. Radiolabelled phaseic acid (PA) and dihydrophaseic acid (DPA) were detected in embryos and, to a greater extent in the surrounding media, by 48 h regardless of whether the embryos had been excised from seed previously subjected to only a 3 d soak or to a full dormancy-breaking treatment. Of the two enantiomers of ABA, only the natural S-(+)-ABA effectively inhibited germination of isolated embryos. A metabolism-resistant synthetic ABA analogue S-[8',8',8',9',9',9']-hexadeuteroabscisic acid, S-(+)-d6-ABA, consistently slowed the germination rate of excised embryos to a greater extent than that caused by natural S-(+)-ABA. The deuterium-labelled ring methyl groups of the analogue made it more resistant to oxidation by yellow-cedar embryos and thus rendered the analogue more persistent and possessing greater activity. With increasing time of exposure to moist chilling, yellow-cedar embryos became increasingly insensitive to both ABA and to the analogue. Subjecting seed to chemical treatments (GA(3) in combination with 1-propanol) prior to moist chilling strongly enhanced the germinability of whole seeds. This treatment also had a relatively greater impact on ABA metabolism than did moist chilling alone, as indicated by a greater capacity of S-(+)-d6-ABA to inhibit the germination of embryos as compared to S-(+)-ABA. Moist chilling was most critical for reduced ABA sensitivity of embryos. A change in the embryo's ability to metabolize ABA and reduced embryo sensitivity to ABA are two factors associated with dormancy termination of whole seeds of yellow cedar; a change in only one of these factors is insufficient to elicit high germinability.     

In vitro somatic embryogenesis from cell suspension cultures of cowpea [Vigna unguiculata (L.) Walp]

We report, an efficient protocol for plantlet regeneration from the cell suspension cultures of cowpea through somatic embryogenesis. Primary leaf-derived, embryogenic calli initiated in MMS [MS salts (Murashige and Skoog 1962) with B5 (Gamborg et al. 1968) vitamins] medium containing 2,4-Dichlorophenoxyacetic acid (2,4-D), casein hydrolysate (CH), and l-Glutamic acid-5-amide (Gln). Fast-growing embryogenic cell suspensions were established in 0.5 mg l^–1 2,4-D, which resulted in the highest recovery of early stages of somatic embryos in liquid MMS medium. Embryo development was asynchronous and strongly influenced by the 2,4-D concentration. Mature monocotyledonary-stage somatic embryos were induced in liquid B5 medium containing 0.1 mg l^–1 2,4-D, 20 mg l^–1 l-Proline (Pro), 5 M Abscisic acid (ABA), and 2% mannitol. B5 medium was found superior for the maturation of somatic embryos compared to MS and MMS media. The importance of duration (5 d) for effective maturation of somatic embryos is demonstrated. A reduction in the 2,4-D level in suspensions increased the somatic embryo induction and maturation with decreased abnormalities. Sucrose was found to be the best carbon source for callus induction while mannitol for embryo maturation and maltose for embryo germination. Extension of hypocotyls and complete development of plantlet was achieved in half-strength B5 medium supplemented with 3% maltose, 2500 mg l^–1 potassium nitrate, and 0.05 mg l^–1 thidiazuron (TDZ) with 32% regeneration frequency. Field-established plants were morphologically normal and fertile. This regeneration protocol assures a high frequency of embryo induction, maturation, and plantlet conversion.     

Manipulation of conditions for the culture of somatic embryos of white spruce for improved triacylglycerol biosynthesis and desiccation tolerance

In order to enhance post-germinative vigour, somatic embryos of Picea glauca (Moench) Voss. were matured under in-vitro conditions that stimulated triacylglycerol (TAG) biosynthesis. In P. glauca seeds over 90% of the TAG was stored within the megagametophyte, and isolated zygotic embryos contained twice the amount of TAG of somatic embryos cultured for four weeks on basal medium containing 16 M abscisic acid (ABA). Polyethylene glycol-4000 (PEG) as a non-permeating osmoticum with ABA promoted TAG biosynthesis by somatic embryos and sustained maturation throughout an eight-week culture period. Treatments that promoted TAG biosynthesis also prevented precocious germination and promoted desiccation tolerance. Thus, the optimal culture conditions for maturation, desiccation survival, and plantlet regeneration were 16–24 M ABA and 7.5% PEG for eight weeks, followed by desiccation. Under these conditions the levels of TAG per somatic embryo were raised ninefold to about five times the zygotic-embryo level, and the TAG fatty-acid composition became similar to that of zygotic embryos. A study of sectioned material, using light and transmission electron microscopy, showed that the structure and distribution of lipid bodies within these somatic embryos and the degree of embryo development were similar to mature zygotic embryos. Up to 81% of the desiccated somatic embryos regenerated to plantlets during which time the TAG was utilised in a manner similar to zygotic seedlings.Abbreviations ABA abscisic acid - PEG polyethylene glycol - TAG triacylglycerol - TL total lipid - TEM transmission electron microscopy Plant Research Centre contribution No. 1383We are grateful to Dawn Moore and Ken Stanley for technical assistance, and thank Pat Rennie for the electron microscopy. We acknowledge financial support through an NSERC/Forestry Canada/Weyerhaeuser Canada Ltd (Prince Albert, Sask.) research partnership programme.     

Gene expression patterns, and uptake and fate of fed ABA in white spruce somatic embryo tissues2

Changes in cellular protein accumulation and in in vivo andin vitro protein synthesis, in somatic embryo tissues of whitespruce during a 42 d maturation period were followed by two-dimensionalsodium dodecyl sulphate-polyacrylamide gel electrophoresis (2-DSDS-PAGE). These investigations were complemented by an analysisof uptake and fate of fed abscisic acid (ABA) in somatic embryotissues grown on maturation medium. When Stage 1 somatic embryoswere cultured on ABA-containing maturation medium, many changeswere observed in patterns of gene expression and in proteinsynthesis and accumulation which could be associated with embryodevelopment. The polypeptides observed could be categorizedas constitutive, embryo-abundant, embryo maturation-relatedand embryo stage-related, as well as those with non-specificchanges. Accumulation of label from fed ³H-(+)-ABA in embryotissues reached a plateau 3 d after Stage 1 somatic embryoswere placed on maturation medium. ABA taken into tissues wasrapidly metabolized, and 40% of radioactivity in tissues after1 d of culture resulted from ABA metabolites. This value increasedto 90% after 3 weeks culture. Conjugated ABA and oxidized ABA(phaseic acid and dihydrophaseic acid) were major forms of ABAmetabolites in spruce embryo tissues. Using a single 42 d cultureperiod following transfer to medium with ABA, the conditionsthat stimulate the sequence of developmental changes of somaticembryo maturation during the first 21 d do not reoccur duringthe second 21 d. Unless greater synchronization of Stage 1 culturescan be achieved, it is therefore unlikely that yields of maturesomatic embryos will be increased by this method. Key words: Abscisic acid, gene expression, Picea glauca (Moench) Voss, protein synthesis, somatic embryo maturation     

Effect of abscisic acid and stratification on somatic embryo maturation and germination of holm oak (<Emphasis Type="Italic">Quercus ilex</Emphasis> L.)

Summary The effect of abscisic acid (ABA) was evaluated during the maturation and germination of holm oak (Quercus ilex L.) somatic embryos. The addition of ABA to the culture medium significantly reduced unwanted recurrent embryogenesis in mature somatic embryos without affecting the germination of embryos subjected to stratification at 4°C. Stratification at 4°C for 2 mo. was the most efficient for stimulating somatic embryo germination of holm oak. The addition of 90 and 450 mM sucrose also improved germination, while higher sucrose concentrations were inhibitory.     

松杉类植物体细胞胚发育机理的研究进展

植物体细胞胚胎发生不仅可作为其繁育的重要手段,而且也是研究胚胎发育过程的一种重要模式系统.体细胞胚在形态和生理上的成熟,直接影响到植株的萌发和再生频率.本文综述了近年来国内外有关裸子植物中几种松杉类植物体细胞胚发育过程的研究报道,其中主要涉及培养基成分和脱落酸(ABA)对体细胞胚发育的影响,以及体细胞胚发育在细胞学、细胞程序性死亡、相关基因和蛋白质组学等方面的研究进展,并进一步讨论了松杉类植物体细胞胚的发育机理,以及体细胞胚在遗传转化系统中的作用.     

Polyethylene glycol promotes maturation but inhibits further development of Picea abies somatic embryos

A combined application of abscisic acid (ABA) and high molecular mass osmoticum, polyethylene glycol (PEG) has become a routine method for stimulating somatic embryo maturation in some genera of Coniferales. The goals of the present study were to clarify how the PEG 4000-attributed low osmotic potential (ψ_s) of the maturation medium affects the yield and morphology of mature somatic embryos as well as subsequent developmental processes during germination and ex vitro plantlet growth in different genotypes of Picea abies belonging to 3 full sib seed families. Despite high within- and among-family variation, a stimulatory effect of 7.5% PEG (ψ_s=?0.645 MPa) on somatic embryo maturation was recorded for 13 out of 17 cell lines (F= 2.83, P= 0.1). PEG-treated somatic embryos were more dehydrated than embryos matured in the absence of PEG. Subsequently, embryos were partially desiccated using a high relative humidity treatment (HRH-treatment). The dynamics of embryo water content (WC) during HRH-treatment differed between embryos developed on maturation medium for 5 or 7 weeks. These two patterns remained unchanged irrespective of the ψ_s of the maturation medium. In 5-week somatic embryos, the WC decreased to the lowest level (in the range 25-35%) within the first 8 days of HRH-treatment and was not further substantially changed. Seven-week embryos also lost water within 8 to 16 days (decrease to 15-25% WC), but this drop was followed by rehydration of embryonic tissues by 24th day of HRH-treatment up to nearly the initial WC. Thus, 7-week embryos experienced both desiccation and slow imbibition in the course of the 24-day HRH-treatment. This could account for their increased germinability compared to 5-week somatic embryos found in the present study. Addition of 7.5% PEG to the maturation medium significantly inhibited somatic embryo germination for the vast majority of genotypes (F= 7.35; P= 0.01). Moreover, even after ex vitro transfer, both radicle elongation and lateral root formation were substantially suppressed (F= 3.8; P= 0.03) in those plantlets produced from PEG-treated somatic embryos. Alterations both in the organization of the root meristem and in the structure of the root cap were found by histomorphological analysis of PEG-treated somatic embryos. All those embryos possessed massive root caps with numerous intercellular spaces in the pericolumn tissue. Cells of the quiescent center exhibited clear symptoms of degradation manifested in shrinkage and collapse of the protoplasm. In addition, PEG-treated embryos were of smaller size compared to embryos matured without osmoticum. When grown in artificial substrate (up to 5 months) the PEG-induced inhibitory post-effect gradually decreased. At this stage, the duration of maturation was the only factor separating plantlets into slow- and fast-growing categories. Somatic embryos matured for 5 weeks produced plantlets twice the size of those produced by 7-week embryos (F= 37.8; P < 0.0001). This trend did not depend on ψ_s of the maturation medium, nor on the genotype.     

Regulation of Medicago sativa L. somatic embryos regeneration by gibberellin A3 and abscisic acid in relation to starch content and α-amylase activity

Somatic embryo quality is an important factor decisive for the efficiency of somatic embryogenesis. Addition gibberellic acid (GA₃) at a concentration of 1 μM to germination medium improved the regeneration of alfalfa somatic embryos. Inhibitory effect of ancymidol, an inhibitor of gibberellin biosynthesis, on germination and conversion may indicate that those processes require endogenous GAs. Since fluridone, an ABA biosynthetic inhibitor, at a concentration of 1 μM, had a slight stimulatory effect on germination of somatic embryos, it may be presumed that embryos contain a too high level of residual ABA after maturation phase (20 μM ABA is used at that phase). The observed improvement of regeneration of somatic embryos by GA₃ was correlated with acceleration of starch hydrolysis through α-amylase activity enhancement by GA₃. In contrast, the inhibitory effect of ABA on the above processes was probably related to inhibition of α-amylase activity and, in consequence, to delayed starch hydrolysis. It is suggested that α-amylase activity can be considered a good marker of the quality of Medicago sativa L. somatic embryos.     

Characterization of embryogenic cell lines of Picea abies in relation to their competence for maturation

Summary Embryogenic cell lines of Picea abies are categorized into three groups (polar, solar, and undeveloped) based on the organization of the somatic embryos within the tissue and the ability of the somatic embryos to proceed through a maturation process when treated with ABA. The polar and the solar types consist of somatic embryos with densely packed embryonic regions subtended by vacuolated suspensors. Both types of tissue regenerate mature somatic embryos when treated with ABA. Almost all mature somatic embryos develop further into shoots or plantlets. The undeveloped type consists of somatic embryos comprised of only a few loosely aggregated cells in their embryonic regions. Mature somatic embryos were not observed with this tissue type.Abbreviations ABA cis-trans abscisic acid - A1 polar type - A2 solar type - B undeveloped type - BA benzyladenine - 2,4-D 2,4 di-chlorophenoxyacetic acid - LP von Arnolds medium (1987)     

Comparative Efficacy of Abscisic Acid and Methyl Jasmonate for Indirect Somatic Embryogenesis in Medicago sativa L.

The effects of methyl jasmonate (MeJA) in relation to abscisic acid (ABA) on different phases of somatic embryogenesis were studied in Medicago sativa L. Different concentrations of both the growth inhibitors (0.0, 0.5, 5.0, 50.0 and 500.0 μM) were tested in five distinct phases of somatic embryogenesis, viz., induction, proliferation, differentiation, maturation and regeneration. Like ABA, MeJA also inhibited callus induction, callus growth, proliferation of embryogenic suspension as well as germination and conversion of somatic embryos. However, its inhibitory effects on various phases of somatic embryogenesis were less pronounced as compared to that due to ABA. In contrast to ABA, MeJA did not have any significant influence on the development of somatic embryos when applied in the differentiation phase. The study showed that ABA used routinely as an inducer of somatic embryo maturation in M. sativa could not be replaced by MeJA.     

Treatments affecting maturation and germination of American chestnut somatic embryos

The effects of amino acids, abscisic acid (ABA), polyethylene glycol (PEG), and elevated sucrose were tested on the maturation and germination of American chestnut (Castanea dentata) somatic embryos. Somatic embryos from three lines were matured over an eight week period through a two-stage process. After maturation, somatic embryos were randomly divided into three groups to measure dry weight/ fresh weight ratios, starch levels, and germination rates. Prior to transfer to germination medium, somatic embryos received a four week cold treatment. While some treatments with amino acids, elevated sucrose, PEG or ABA increased either dry weight/fresh weight ratios, starch content or both, only addition of 25mM L-asparagine significantly increased germination rate and taproot length, and this response was only obtained with one of the three lines tested. Six plants survived the transfer to potting mix, acclimatization to greenhouse conditions and field planting.