Developmental Aspects of Ethylene Biosynthesis during Somatic Embryogenesis in Tissue 4Medicago sativa

Rates of ethylene production were determined in highly embryogenicand virtually non-embryogenic tissue cultures of Medicago sativassp. falcata during a 10-d induction period on medium containing2, 4, -dichlorophenoxyacetic acid and kinetin, and during thefirst 10 d of somatic embryo formation on growth regulator-freemedium. In cultures of both genotypes, ethylene production increasedrapidly, peaked after 10 d and then declined again rapidly.This fall in ethylene production rate also occurred when thecultures were kept on the growth regulator-containing medium,but it was more pronounced in cultures which were transferredto growth regulator-free medium, i.e. under conditions favouringsomatic embryo formation. There were only minor differencesin the rates of ethylene production between the two genotypes,mainly after transfer to growth regulator-free medium. Cobaltand nickel ions strongly inhibited ethylene biosynthesis throughoutthe culture period under investigation. They did not, however,affect embryo induction, but exerted strongly inhibitory effectson somatic embryo formation. Amino-oxyacetic acid and aminoethoxyvinylglycinehad no effect on ethylene production during the inductive period.It is concluded from these experiments that the high rates ofethylene production during embryo induction are not essentialfor subsequent embryo differentiation. Key words: auxin, ethylene, Medicago sativa, somatic embryogenesis, tissue culture     

Inhibition of Somatic Embryogenesis in Tissue 2Medicago sativa by Aminoethoxyvinylglycine, Amino-oxyacetic acid, 2, 4-Dinitrophenol and Salicylic Acid at Concentrations which do not Inhibit Ethylene Biosynthesis and Growth

Meijer, E. G. M. and Brown, D. C. W. 1988. Inhibition of somaticembryogenesis in tissue cultures of Medicago sativa by aminoethoxyvinylglycine,amino-oxyacetic acid, 2, 4-dinitrophenol and salicylic acidat concentrations which do not inhibit ethylene biosynthesisand growth. J. exp. Bot. 39: 263–270. The effects of aminoethoxyvinyglycine (AVG), amino-oxyaceticacid (AOA), 2, 4-dinitrophenol (DNP) and salicylic acid (SA)on ethylene production, tissue proliferation and somatic embryo-genesisin a recently developed rapid in vitro regeneration system ofMedicago sativa L. were examined. Contrary to numerous publications,AVG, AOA and DNP did not affect the rate of ethylene biosynthesis,while SA even caused an increase in ethylene production. Allfour compounds were, however, potent inhibitors of somatic embryoformation in the M. sativa tissue cultures, even at concentrationswhich did not affect tissue growth. Generally, a 5-d exposureto the inhibitors reduced the number and quality of somaticembryos obtained. It is suggested that the inhibitors may notreach the site of action of enzymes involved in ethylene biosynthesisand may possibly block other biosynthetic pathways which areof crucial importance to somatic embryo development. The resultsindicate that a delicate differentiation process like somaticembryogenesis is very sensitive to metabolic perturbances. Theresults are also discussed in the light of other known effectsof these four compounds on higher plants. Key words: Ethylene, Medicago sativa, somatic embryogenesis, tissue culture     

Disturbance of ethylene biosynthesis and perception during somatic embryogenesis in <Emphasis Type="Italic">Medicago sativa</Emphasis> L. reduces embryos’ ability to regenerate

Effects of non-specific ethylene biosynthesis inhibitors: salicylic acid (SA) and aminoethoxyvinylglycine (AVG), and of specific inhibitors of ethylene binding to receptors: 1-methylcyclopropene (1-MCP) and 2,5-norbornadiene (NBD) applied during proliferation and differentiation phases of indirect somatic embryogenesis (SE) of Medicago sativa L. cv. Rangelander on embryogenic suspension growth, embryo production, development, and ability to germinate and convert were studied. Application of SA and AVG alone or together at concentrations from 1 to 500 μM in B₅g liquid medium during the proliferation phase had an inhibitory effect on ethylene production and embryogenic suspension growth. Additionally, it caused a drastic reduction in production of embryos and their development on BOi2Y solid differentiation medium. The inhibitory effect of SA was more visible than that of AVG. In addition, disturbance of ethylene biosynthesis during the proliferation phase of SE resulted in diminished lateral germination and conversion of cotyledonary embryos on MS solid medium. Moreover, blocking of ethylene receptors by 1-MCP during the proliferation phase also inhibited ethylene production and embryogenic suspension growth and reduced embryo production during differentiation. MCP almost completely inhibited development of cotyledonary embryos. At the same time, development of more embryos was arrested at the globular stage, and the number of abnormal embryos almost doubled. Similarly, addition of 1-MCP or NBD to the ambient atmosphere during the differentiation phase evidently arrested the development of embryos and, consequently, their ability to germinate and convert on MS regeneration medium. All the results presented above demonstrated that not only ethylene biosynthesis, but also ethylene action is involved in the control of individual phases of SE in Medicago sativa L. cv. Rangelander. And what is more, disturbance of these processes during distinct phases of SE adversely affects vigor of the somatic embryos obtained.     

Endogenous ethylene in indirect somatic embryogenesis of <Emphasis Type="Italic">Medicago sativa</Emphasis> L.

Ethylene biosynthesis during different phases of somatic embryogenesis in Medicago sativa L. cv. Rangelander using two regeneration protocols, RPI and RPII, was studied. The highest ethylene production was detected during callus growth on induction medium in both regeneration protocols. Significantly less ethylene was produced by embryogenic suspension than by callus (RPII). Developing embryos synthesized higher amounts of ethylene than mature embryos. Production of ethylene was strongly limited by the availability of 1-aminocyclopropane-1-carboxylic acid and also by ACC-oxidase activity. However, removal of ethylene from culture vessels’ atmosphere using KMnO₄ or HgClO₄ had no significant effect on callus growth, somatic embryo induction and development. Reducing of ethylene biosynthesis by aminoethoxyvinylglycine substantially decreased somatic embryo production and adversely affected their development, indicating ethylene requirement during proliferation and differentiation but not induction.     

The Use of Single Somatic Embryo Culture in Propagating and Regenerating Lucerne (Medicago sativa L.)

Embryogenic cultures of lucerne (Medicago sativa L.) cv. Robothave been established and propagated on medium containing yeastextract. These cultures consisted of unorganized callus tissuebearing embryogenic centres which increased in size during subculture,yielding new regenerated somatic embryos at the end of each20-d subculture. A development in the propagation of the embryogenic cultureswas the establishment of single embryo culture in hormone-freemedium where, in selected cases, the process of recurrent somaticembryogenesis (RSE) took place on the hypocotyl of explantedembryos. The process was independent of supporting callus tissueand occurred on simple defined medium. Single embryos underwenteither plantlet development or continued RSE on the hypocotyl.One third of the regenerated plantlets showed RSE after thetwo to three trifoliate leaf stage. In these cases shoot developmentstopped and only somatic embryo production took place. In vitrocloning of regenerated plantlets allowed us to reproduce eachparticular genotype before transplantation into soil. Lucerne (alfalfa), Medicago sativa L., somatic embryogenesis, single embryo culture     

Polyamine Levels in Relation to Growth and Somatic Embryogenesis in Tissue 6Medicago Sativa L.

Polyamine levels in petiole-derived tissue cultures of two highlyregenerable Medicago sativa L. genotypes were determined duringthe embryo induction and embryo differentiation phases of somaticembryogenesis. Putrescine levels increased 27–32-foldduring the 10 d on 2, 4-D- and kinetin-containing embryo inductionmedium and fell sharply following transfer to growth substance-freeembryo differentiation medium. The rapid increase in putrescinecontent occurred during a period of relatively little growthwhile the decline coincided with the initiation of rapid tissuegrowth on embryo differentiation medium. The addition of putativeinhibitors of putrescine or spermidine biosynthesis to the embryoinduction medium led to reduced levels of polyamines, particularlyof putrescine, in cultures of both genotypes but subsequentsomatic embryo formation was inhibited in cultures of one genotypeonly. It was concluded that the pronounced change in putrescinemetabolism was not specifically associated with embryogenesis,but appeared to be related generally to re-programming of cellsinto a new pattern of in vitro development. Key words: Medicago sativa, polyamines, somatic embryogenesis     

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.     

The influence of the jasmonates and abscisic acid on callus growth and somatic embryogenesis in Medicago sativa L. tissue culture

The jasmonates as well as abscisic acid were found to be inhibitors of callus growth and somatic embryogenesis in Medicago sativa L. tissue cultures. An exposure to these inhibitors during the induction as well as the differentiation stage reduced the number of somatic embryos obtained. The jasmonates showed to be less active in the inhibition of callus growth and somatic embryo production than abscisic acid.     

Gene Expression Patterns During Somatic Embryo Development and Germination in Maize Hi II Callus Cultures

Gene expression patterns were profiled during somatic embryogenesis in a regeneration-proficient maize hybrid line, Hi II, in an effort to identify genes that might be used as developmental markers or targets to optimize regeneration steps for recovering maize plants from tissue culture. Gene expression profiles were generated from embryogenic calli induced to undergo embryo maturation and germination. Over 1,000 genes in the 12,060 element arrays showed significant time variation during somatic embryo development. A substantial number of genes were downregulated during embryo maturation, largely histone and ribosomal protein genes, which may result from a slowdown in cell proliferation and growth during embryo maturation. The expression of these genes dramatically recovered at germination. Other genes up-regulated during embryo maturation included genes encoding hydrolytic enzymes (nucleases, glucosidases and proteases) and a few storage genes (an α-zein and caleosin), which are good candidates for developmental marker genes. Germination is accompanied by the up-regulation of a number of stress response and membrane transporter genes, and, as expected, greening is associated with the up-regulation of many genes encoding photosynthetic and chloroplast components. Thus, some, but not all genes typically associated with zygotic embryogenesis are significantly up or down-regulated during somatic embryogenesis in Hi II maize line regeneration. Although many genes varied in expression throughout somatic embryo development in this study, no statistically significant gene expression changes were detected between total embryogenic callus and callus enriched for transition stage somatic embryos.Supplementary material is available for this article at     

AgNO3对橡胶树花药愈伤组织形态及体胚发生的影响

橡胶树的花药愈伤组织在长期继代过程中,胚性易下降甚至丧失;而AgNO3作为乙烯活性抑制剂,被广泛应用于植物组织培养中.该研究以继代培养4 a以上的热研7-33-97花药愈伤组织为材料,在继代培养基中添加2.5 mg·L-1 AgNO3预培养35 d后,观察预培养前后愈伤组织表形及其细胞形态的变化,并设计不同浓度AgNO3及不同处理时间对其进行体胚诱导,90 d后分别统计胚状体总数和正常胚数.结果表明:浅黄色质地柔软的愈伤组织在含AgNO3的培养基上预培养后能转变成鲜黄色易碎愈伤组织,在倒置显微镜下前者大多表现为不规则多边形,细胞内含物较稀薄;而后者则呈圆形或椭圆形,细胞内含物丰富,属于典型的胚性细胞.在体胚诱导的第1个月添加5 mg·L-1 AgNO3能显著促进体胚的发生,AgNO3浓度升至10 mg·L-1时体胚发生受到抑制,且畸形胚的形成率显著增加;在含5 mg·L-1 AgNO3的培养基中培养2个月以上,体胚发育明显受阻,大部分形成畸形胚.该研究结果在一定程度上恢复了橡胶树长期继代花药愈伤组织的胚性能力,并提高了其体胚发生频率,为橡胶树花药胚性愈伤组织长期继代培养过程中胚性的保持提供了参考.     

Direct Somatic Embryoid Formation on Immature Embryos of Trifolium repens, T. pratense and Medicago sativa, and Rapid Clonal Propagation of T. repens

By direct somatic embryogenesis in vitro a clone of asepticplantlets can be raised from a single immature embryo of Trifoliumrepens (white clover) within about 6 weeks of pollination. Embryoidsare induced directly from intact zygotic embryonic tissue ona culture medium containing 0·025 or 0·05 mg 1^–1BAP and 1·0 g 1^–1 yeast extract. Similar directsomatic embryogenesis has also been achieved for Trifolium pratense(red clover) and Medicago sativa (lucerne). Applications ofembryo propagation by direct somatic embryogenesis are discussed,particularly in relation to multiple screening of host genotypesfor analysis of host/pathogen and legume/Rhizobium interactions. Trifolium repens L., Trifolium pratense L., Medicago sativa L., clover, lucerne, tissue culture, embryoid, somatic embryogenesis, legumes     

Callus concentration regulates somatic embryo production in orchardgrass suspension cultures

Summary The effects of callus inoculation concentration and culture duration on somatic embryogenesis of orchardgrass,Dactylis glomerata L., were evaluated in suspension cultures of an embryogenic genotype Embryogen-P. Somatic embryo formation was induced in liquid SH medium containing 30 μM dicamba (SH-30 and 1.5% casein hydrolysate; embryo development was in liquid SH medium without plant growth regulators (SH-0); and embryo maturation and germination occurred on solid SH-0 medium. Callus proliferation in SH-30 suspension cultures was greatest when callus was inoculated into the liquid medium at a relatively high concentration of 4% (4 g callus/100 ml medium), but the induction of somatic embryos was highest in this medium if the callus was inoculated at a lower concentration (<2%). In a second experiment, somatic embryo yield was highest when SH-0 development medium was inoculated with suspension culture callus at 0.1% concentration and declined markedly as inoculation concentration increased. Cell concentration is a critical factor in regulating the somatic embryogenesis response in orchardgrass suspension cultures.     

Somatic embryogenesis of holm oak (<Emphasis Type="Italic">Quercus ilex</Emphasis> L.): ethylene production and polyamine content

The production of ethylene and the endogenous content of polyamines (PAs) have been recorded during the early development, maturation and germination of holm oak (Quercus ilex L.) somatic embryos. Ethylene production was high in embryogenic callus, immature somatic embryos and in explants showing secondary embryogenesis, while it was lower in mature and germinating somatic embryos. A higher ethylene production was also associated to the process of secondary embryogenesis. The exogenous application of 1-amino-1-cyclohexane carboxylic acid was not significantly effective on the production of ethylene by holm oak somatic embryos. Total PAs were more abundant in embryogenic callus and in both somatic and zygotic immature embryos, decreasing later on in the mature and germination phases. Immature somatic embryos of holm oak and immature zygotic embryos contain high levels of spermidine (Spd), which decreased during maturation and germination. Spermine (Spm) concentration was lower than that of Spd. Spm was more abundant in embryogenic callus and immature zygotic embryos than in mature embryos. Ethylene production did not seem to interfere with PA metabolism.     

Induction of secondary somatic embryogenesis in hybrid larch (Larix x leptoeuropaea) as related to ethylene

Induction of secondary somatic embryogenesis was studied with hybridlarch (Larix x leptoeuropaea)cotyledonary somatic embryos obtained after 3, 4, 5 and 6 weeks of culture on amaturation medium supplemented with abscisic acid. Almost all 3-week maturedcotyledonary somatic embryos can develop embryonal masses whereas only 78, 27and 12% of them are able to do so after 4, 5 and 6 weeks of maturation,respectively. During the first week of culture on the induction medium, somaticembryos with high embryogenic potential (i.e. 3-weekmatured) release little ethylene (less than 1.5 nL h^–1g^–1 FW), whereas those which have almost completelylosttheir ability to induce embryonal masses (i.e. 6-weekmatured) produce much more ethylene. Thereafter, ethylene production by bothtypes of embryos is very similar at around 5–6 nLh^–1 g^–1 FW. Enrichment of theatmosphere with ethylene, or addition of 2-chloroethylphosphonic acid(ethephon)or ACC in the induction medium strongly reduced the induction of secondarysomatic embryogenesis. Moreover, inhibitors of ethylene action(AgNO₃and 2,5-norbornadiene) improved the development of embryonal masses fromsomaticembryos, particularly from the 6-week maturated ones. The results obtainedclearly suggest that ethylene is involved in the regulation of somaticembryogenesis in hybrid larch. The possible relationship between somaticembryogenic potential and ethylene biosynthesis by the explants or sensitivityof the latter to ethylene is discussed.     

Effects of sealed and vented gaseous microenvironments on the maturation of somatic embryos of black spruce with a special emphasis on ethylene

Maturation of black spruce somatic embryos in sealed and vented microenvironments was investigated. The sealed microenvironment induced a larger number of well-formed mature embryos and less precocious germination than the vented microenvironment. Maturation rate of somatic embryos was not changed either by injection of ethylene into the culture vessel or by its removal by potassium permanganate traps. Increased as well as decreased ethylene concentrations, by the addition of either 1-aminocyclopropane-1-carboxylic acid (precursor of ethylene) or cobalt chloride (inhibitor of ethylene biosynthesis), resulted in a decreased number of embryos produced. However, inhibition of ethylene action by the addition of silver nitrate to the maturation medium did not affect either ethylene concentration or somatic embryo production. It was concluded that ethylene accumulation during maturation has no effect on somatic embryo production. Neither the microenvironment nor the modification of the ethylene metabolism affected conversion rate of somatic embryos into plantlets growing in soil. This revised version was published online in June 2006 with corrections to the Cover Date.     

From callus to embryo: a proteomic view on the development and maturation of somatic embryos in <Emphasis Type="Italic">Cyclamen persicum</Emphasis>

In this study, the proteome structures following the pathway in somatic embryogenesis of Cyclamen persicum were analysed via high-resolution 2D-SDS-PAGE with two objectives: (1) to identify the significant physiological processes during somatic embryogenesis in Cyclamen and (2) to improve the maturation of somatic embryos. Therefore, the effects of maturation-promoting plant growth regulator abscisic acid (ABA) and high sucrose levels on torpedo-shaped embryos were investigated. In total, 108 proteins of differential abundance were identified using a combination of tandem mass spectrometry and a digital proteome reference map. In callus, enzymes related to energy supply were especially distinct, most likely due to energy demand caused by fast growth and cell division. The switch from callus to globular embryo as well as from globular to torpedo-shaped embryo was associated with controlled proteolysis via the ubiquitin-26S proteasome pathway. Storage compound accumulation was first detected 21 days after transfer to plant growth regulator (PGR)-free medium in early torpedo-shaped embryos. Increase in abundance of auxin-amidohydrolase during embryogenesis suggests a possible increase in auxin release in the late embryo stages of Cyclamen. A development-specific isoelectric point switch of catalases has been reported for the first time for somatic embryogenesis. Several proteins were identified to represent markers for the different developmental stages analysed. High sucrose levels and ABA treatment promoted the accumulation of storage compounds in torpedo-shaped embryos. Additionally, proteins of the primary metabolic pathways were decreased in the proteomes of ABA-treated embryos. Thus, ABA and high sucrose concentration in the culture medium improved maturation and consequently the quality of somatic embryos in C. persicum.     

Use of calcium to optimize long-term proliferation of friable embryogenic calluses and plant regeneration in Hevea brasiliensis (Mll. Arg.)

In Hevea brasiliensis (Mll. Arg.), increasing the calcium contentof the friable callus maintenance medium from 3 to 9 mM stimulatedregeneration potential through somatic embryogenesis. This stimulationcould be attributed to the homogeneous cytological structureof calluses, which were formed of undifferentiated cells capableof somatic embryogenesis in optimal culture conditions. Thevery marked increase in the active cell population was sufficientto cause a decrease and a stabilization of water and osmoticpotentials of the calluses, whereas their water content increased.The regeneration capacity of calluses cultured on a medium withadditional CaCl₂ was greater in terms of both quantity (numberof somatic embryos produced was increased 2-fold) and quality(germination efficiency trebled). High CaCl₂ concentrations (9 mM CaCl₂) in the embryogenesisinduction medium favoured somatic embryo development when calluseswere maintained 2 months on the same medium. In this case, additionof benzylaminopurine (BAP) and 3,4-dichlorophenoxy- acetic acid(3,4-D) increased the number of embryos produced (243 embryosg^–1 FW callus) and their germination capacity (27%). These culture conditions were used to determine the optimumembryogenesis induction period. The length of the period affectedboth the intensity of embryogenesis (maximum 56–77 d)and somatic embryo quality (maximum 49–70 d). The bestresults were obtained with a 70 d embryogenesis induction period,within which 355 embryos g^–1 FW callus were obtained,with 35% germination. Key words: Calcium, somatic embryogenesis, long-term culture, water status, histology     

Role of 2,4-dichlorophenoxyacetic acid (2,4-D) in somatic embryogenesis on cultured zygotic embryos of Arabidopsis: cell expansion, cell cycling, and morphogenesis during continuous exposure of embryos to 2,4-D

The relationship between cell expansion and cell cycling during somatic embryogenesis was studied in cultured bent-cotyledon-stage zygotic embryos of a transgenic stock of Arabidopsis thaliana harboring a cyclin 1 At:β-glucuronidase (GUS) reporter gene construct. In embryos cultured in a medium containing 2,4-dichlorophenoxyacetic acid (2,4-D), following a brief period of growth by cell expansion, divisions were initiated in the procambial cells facing the adaxial side at the base of the cotyledons. Cell division activity later spread to almost the entire length of the cotyledons to form a callus on which globular and heart-shaped embryos appeared in about 10 d after culture. Anatomical and morphogenetic changes observed in cultured embryos were correlated with patterns of cell cycling by histochemical detection of GUS-expressing cells. Although early-stage somatic embryos did not develop further during their continued growth in the auxin-containing medium, maturation of embryos ensued upon their transfer to an auxin-free medium. In a small number of cultured zygotic embryos the shoot apical meristem was found to differentiate a leaf, a green tubular structure, or a somatic embryo. Contrary to the results from previous investigations, which have assigned a major role for the shoot apical meristem and cells in the axils of cotyledons in the development of somatic embryos on cultured zygotic embryos of A. thaliana, the present work shows that somatic embryos originate almost exclusively on the callus formed on the cotyledons. Other observations such as the induction of somatic embryos on cultured cotyledons and the inability of the embryo axis (consisting of the root, hypocotyl, and shoot apical meristem without the cotyledons) to form somatic embryos, reaffirm the important role of the cotyledons in somatic embryogenesis in this plant.     

Label-Free Quantitative Proteomics of Embryogenic and Non-Embryogenic Callus during Sugarcane Somatic Embryogenesis

The development of somatic cells in to embryogenic cells occurs in several stages and ends in somatic embryo formation, though most of these biochemical and molecular changes have yet to be elucidated. Somatic embryogenesis coupled with genetic transformation could be a biotechnological tool to improve potential crop yields potential in sugarcane cultivars. The objective of this study was to observe somatic embryo development and to identify differentially expressed proteins in embryogenic (E) and non-embryogenic (NE) callus during maturation treatment. E and NE callus were cultured on maturation culture medium supplemented with different concentrations (0.0, 0.75, 1.5 and 2.0 g L^-1) of activated charcoal (AC). Somatic embryo formation and differential protein expression were evaluated at days 0 and 21 using shotgun proteomic analyses. Treatment with 1.5 g L^-1 AC resulted in higher somatic embryo maturation rates (158 somatic embryos in 14 days) in E callus but has no effect in NE callus. A total of 752 co-expressed proteins were identified through the SUCEST (The Sugarcane EST Project), including many housekeeping proteins. E callus showed 65 exclusive proteins on day 0, including dehydrogenase, desiccation-related protein, callose synthase 1 and nitric oxide synthase. After 21 days on maturation treatment, 14 exclusive proteins were identified in E callus, including catalase and secreted protein. NE callus showed 23 exclusive proteins on day 0 and 10 exclusive proteins after 21 days on maturation treatment, including many proteins related to protein degradation. The induction of maturation leads to somatic embryo development, which likely depends on the expression of specific proteins throughout the process, as seen in E callus under maturation treatment. On the other hand, some exclusive proteins can also specifically prevent of somatic embryos development, as seen in the NE callus.     

Embryo induction and regeneration from root explants of Medicago truncatula after osmotic pre-treatment

Embryo induction and regeneration from suspension culture of two Medicago truncatula cvs. (cv. R 108 1 and cv. Jemalong) have been studied. The influence of osmotic pre-treatment (1 M solution of sucrose for 48 h and 72 h) of roots as an initial explant, on embryogenic efficiency of the suspension culture was assessed. In comparison to the control, the level of abscisic acid (ABA) increased significantly after osmotic stress. The increased ABA level did not correlate with the induction of embryogenesis neither with the improved embryogenic potential of cv. R 108 1. The shortest regeneration period and the highest percent of conversion to plants were found in cv. R 108 1 after 72-h pre-treatment of roots. The efficiency of somatic embryo conversion was less after 48-h pre-treatment and much less for the untreated control. Osmotic stress did not positively affect the process of embryogenesis from root explants of cv. Jemalong, confirming its cultivar dependence. A single cell suspension fraction was produced in both Medicago trunacatula cvs. during the somatic embryo maturation stage. A higher embryogenic potential than the initial suspension culture was established only for the cell suspension originating from 72-h pre-treated roots of cv. R 108 1. The data confirms that the process of somatic embryo induction and embryo conversion from root explants of cv. R 108 1 could be promoted by osmotic stress pre-treatment.