Embryogenic suspension cultures of Pinus nigra Arn.: growth parameters and maturation ability

Suspension cultures have been established from embryogenic tissues of Pinus nigra initiated from immature zygotic embryos. The growth of tissues in liquid medium has been influenced by initial tissue weight used for the establishment of the cultures as well as by genotype. In most of the cases initial tissue weight 0.5 g was insufficient and the cultures showed poor growth and later degeneration. Higher amount of initial tissues (1 or 2.5 g) was more efficient for the establishment and proliferation of somatic embryos in liquid medium. The growth of suspension cultures was also cell line dependent. Somatic embryo maturation in liquid medium was very limited and no plantlet regeneration occurred. Cotyledonary somatic embryos developed and produced emblings when the suspension was plated on filter paper discs and cultured on solid maturation medium. Based on our experiments we can state that the embryogenic tissues are able to grow and proliferate in liquid medium but somatic embryo maturation and plantlet regeneration occur only on solid medium.     

High frequency androgenesis from isolated microspores of maize

Anthers from a highly androgenic genotype of maize (139/39-02), when cultured in a modified, liquid YP medium, dehisced within 2–7 days resulting in a stationary suspension of microspores. After 12–15 days, the microspore suspension was found to contain multicellular masses which went on to produce macroscopic embryo-like structures within 20–25 days of culture initiation. Embryogenic callus could be obtained by transferring microspore-derived embryos onto a modified N6 medium supplemented with 2.5 mg/l dicamba and 0.1 mg/l 2,4-D. Subculture onto hormone-free medium resulted in plant regeneration. Over 400 embryo-like structures per 100 anthers cultured have been obtained from liquid induction medium as compared to 55 embryos per 100 anthers cultured on an agar-solidified medium. Approximately 5–25% of these embryo-like structures went on to produce callus from which plants could be recovered. Mechanical isolation of microspores from anthers precultured for 0, 3, and 7 days also resulted in embryo production and plant regeneration. This represents the first report of plant recovery from isolated maize microspores. The use of a liquid induction medium applied to a highly androgenic genotype allows for the production of large numbers of microspore-derived plants and provides a single, haploid cell regeneration system for maize.     

Variability in maturation and germination from white spruce somatic embryos,as affected by age and use of solid or liquid culture

Summary The yield of morphologically normal Stage 3 somatic embryos of white spruce [Picea glauca (Moench) Voss], and subsequent germinability, was affected by culture age and use of solid and/or liquid culture growth conditions. Of the conditions that were compared, best results were obtained with cultures up to 3 yr old that had been continuously grown in liquid medium. Such material yielded up to 374 morphologically normal Stage 3 embryos per g f. wt. inoculum, when routinely pretreated using a 1 wk 2,4-dichlorophenoxyacetic acid-free period before maturation. By comparison the continual use of solid culture conditions resulted in lower yields (5/g f. wt. inoculum), and the use of solid medium in combination with liquid medium showed a greater affect of age on the production of normal Stage 3 embryos (348/g f. wt at 1.5 yr down to 19/g f. wt. at 3 yr) over the age range tested. In the absence of culture pretreatment, the oldest liquid cultures yielded only 44 normal Stage 3 embryos/g f. wt. inoculum, and the comparable solid to liquid cultures yielded 1.3/g f. wt. inoculum. The number of aberrant Stage 3 embryos in older cultures was reduced as a result of culture pretreatment; for example, in the oldest liquid cultures these represented 83% of the Stage 3 embryo population without pretreatment and 45% with pretreatment. Normal Stage 3 somatic embryo yield and germination characteristics (radicle and epicotyl development) were informative in distinguishing among the conditions studied. Germination characteristics were especially important when maturation responses were incapable of distinguishing among age classes. NRCC Contribution no. 38462.     

Induction of high-frequency somatic embryos in cassava for cryopreservation

Methods for inducing high-frequency somatic embryos in cassava on cotyledons and 33 clonal accessions by the addition of supplementary copper sulphate to the induction medium were investigated. The addition of copper sulphate enhanced primary embryo induction and significantly increased secondary embryo production. All accessions from Latin America (CIAT) were embryogenically competent on medium supplemented with 8 mg l^-1 2,4-dichlorophenoxyacetic acid (2,4-D) plus 1 µM copper sulphate as were 15 of the 18 accessions from Africa. The percentage of calli producing somatic embryos ranged from 7.5% in M. Bra 12 to 100% in M. Col. 1505, while the number of embryos produced per callus ranged from 0.3 in M. Bra 383 to 13.5 in TEK. The frequency of embryo production was dependent on the concentration of copper sulphate. The number of primary embryos produced per callus was also comparatively higher in the medium supplemented with copper sulphate than in the controls. The optimal concentration of copper sulphate for number of embryos produced in most accessions was 5 µM, and at this concentration the number of embryos produced was double that of the controls. Copper sulphate also reduced the maturation time of somatic embryos to 25 days from embryo initiation. High levels of 2,4-D were detrimental to embryo production. Similarly, fragmented embryos incubated in the dark produced more embryos tan those incubated under light conditions. On the basis of these results, the use of cassava somatic embryo micropropagules for germplasm conservation and synthetic seed development seems to be a strong possibility.     

The use of somatic embryogenesis for plant propagation in cassava

In cassava, somatic embryogenesis starts with the culture of leaf explants on solid Murashige and Skoog-based medium supplemented with auxins. Mature somatic embryos are formed within 6 wk. The cotyledons of the primary somatic embryos are used as explants for a new cycle of somatic embryogenesis. The cotyledons undergo secondary somatic embryogenesis on both liquid and solid Murashige and Skoog-based medium supplemented with auxins. Depending on the auxin, new somatic embryos are formed after 14–30 d after which they can be used for a new cycle of somatic embryogenesis. In liquid medium, more than 20 secondary somatic embryos are formed per initial cultured embryo. In both primary and secondary somatic embryogenesis, the somatic embryos originate directly from the explants. Transfer of clumps of somatic embryos to a Greshoff and Doy-based medium supplemented with auxins results in indirect somatic embryogenesis. The direct form of somatic embryogenesis has a high potential for use in plant propagation, whereas the indirect has a high potential for use in genetic modification of cassava. Mature somatic embryos germinate into plants after desiccation and culture on a Murashige and Skoog-based medium supplemented with benzylaminopurine (BA). Depending on the used BA concentration, plants can either be transferred either directly to the greenhouse or after using standard multiplication protocols.     

Effects of support medium on embryo and plant production from cultured anthers of soft-red winter wheat (Triticum aestivum L.)

The present study was designed to examine the effects of media support on the frequency of embryo and plant production from cultured anthers of soft-red winter wheat. Approximately twice as many embryos were produced when anthers were cultured in a liquid as compared to an agar-solidified medium. Upon transfer to regeneration medium, a significantly lower percentage of the embryos produced in liquid regenerated plants. The addition of activated charcoal to an agar-solidified medium resulted in a considerable increase in embryo production, however, plant regeneration from embryos produced on charcoal-containing medium was significantly lower than those produced on agar only. Embryo production frequencies ranged from 2.4–13.2 and 2.5–32.2 embryos per 100 anthers on media with and without charcoal, respectively. Plant regeneration frequencies from embryos produced in the presence of activated charcoal ranged from 0–5.5% as compared to 0–39.1% from embryos produced in the absence of charcoal. More than twice as many embryos produced on Ficoll-containing liquid medium regenerated plants when compared to embryos produced in liquid only. The results from this study suggest that cultural modifications designed to maximize embryo production must take into account the quality of the resulting embryos as they relate to plant regeneration.     

花生体细胞胚的诱导及其植株再生

采用不同成熟度的花生胚轴为外植体进行体细胞胚诱导及植株再生研究,结果表明,成熟胚轴在高浓度2,4－D的MS培养基中,经过30d左右的培养,可直接诱导产生出大量的体细胞胚,含40mgL~－12,4－D的培养基中体细胞胚的诱导率达100％,平均每个外植体产生11．58个体细胞胚．体细胞胚的继代培养需降低2,4－D的浓度（1－20mgL~－1）．未成熟胚轴的体细胞胚诱导及继代培养的2,4－D浓度宜为10mgL~－1．将诱导的体细胞胚转接到合5－10mgL~－1BA的MS培养基中,体细胞胚能够萌发再生成无根小植株,将其转接到生根培养基中可获得完整小植株．     

Micropropagation of sweet orange, Citrus sinensis Osbeck. for the development of nucellar seedlings

Protocol for micropropagation of elite plants of sweet orange (Citrus sinensis) through nucellar embryo culture has been standardized. Three to four nucellar embryos and a zygotic embryo could be excised from a single mature seed and successfully generated as healthy plants in basal MS medium. MS medium supplemented with NAA (1 mg/L) or 2, 4.D (1 mg/L) promoted callus development in both nucellar and zygotic embryos. GA3 (1 mg/L) enriched medium induced plantlets initiation but their growth was very poor. No significant differences were observed between initial growth patterns of nucellar and zygotic seedlings developing from the same ovule. Five to six shoots were obtained from collar region of both category of embryos in MS medium supplemented with BAP (1 mg/L) within 60 days of inoculation. The number of plantlets were almost doubled after their transfer in the same medium and culture for another 30 days. Higher doses of BAP resulted in initiation of callus directly from the embryos. The regenerated shoots (2-3 cm) could be rooted in MS medium supplemented with either only NAA (0.75 mg/L) or NAA (0.50 mg/L) and IBA (2.0 mg/L). A number of plantlets could be obtained from a nucellar embryo grown shoot within a limited time period.     

Somatic embryogenesis in soybean via somatic embryo cycling

Summary The objectives of the present research were: a) to develop an efficient soybean embryogenic regeneration system characterized by a high frequency of explant response and a large number of somatic embryos per explant; b) to evaluate the factors affecting somatic embryogenesis via somatic embryo cycling; and c) to identify the origin of somatic embryos in the system. A highly improved and efficient system for soybean somatic embryogenesis was established using somatic embryo cotyledons and somatic embryo hypocotyl/radicle explants plated on α-naphthaleneacetic acid (NAA) or 2,4-dichlorophenoxyacetic acid (2,4-D) supplemented MS basal media. The system included somatic embryo cycling between liquid and solid medium and it consistently gave rise to a much higher frequency of explant response and a larger number of embryos per responding explant than those obtained from zygotic cotyledon explant tissues. Genotype, differences were observed for response in some of the treatments with cv “Fayette” being more responsive than “J103”. Histological studies revealed that somatic embryos induced in the somatic embryo cycling system originated almost exclusively from epidermal cells on both 2,4-D and NAA inductive media. The cells of the epidermis proliferated to produce somatic embryos directly without an intervening callus phase. A single-cell origin of somatic embryos was observed in cultures on a 40 mg/liter 2,4-D treatment. A large number of responding cells in the epidermis was also observed in the 10 mg/liter NAA treatment. The single-cell origin of somatic embryos from epidermal layers of the explant tissues should facilitate development of an efficient transformation system for soybean.     

Application of bioreactors for large-scale micropropagation systems of plants

Summary The application of bioreactor culture techniques for plant micropropagation is regarded as one of the ways to reduce production cost by scaling-up and automation. Recent experiments are restricted to a small number of species that, however, demonstrate the feasibility of this technology. Periodic immersion liquid culture using ebb and flood system and column-type bubble bioreactors equipped with a raft support system to maintain plant tissues at the air and liquid interface were found to be suitable for micropropagation of plants via the organogenic pathway. Balloon-type bubble bioreactors proved to be fit for micropropagation via somatic embryogenesis with less shear stress on cultured cells. Several cultivars of Lilium were successfully propagated using a two-stage culture method in one bioreactor. A large number of small-scale segments were cultured for 4 wk with periodic immersion liquid culture to induce multiple bulblets from each segment, then the bulblet induction medium was changed into bulblet growth medium by employing a submerged liquid bioreactor system. This culture method resulted in a nearly 10-fold increase in bulblet growth compared to conventional culture with solid medium. About 20 000 cuttings of virus-free potato could be obtained from 120 singlenode explants in a 20-liter balloon-type bubble bioreactor after 8 wk of culture. The percentage of ex vitro survival and root induction of the cuttings was more than 95%. Other successful results were obtained from the micropropagation and transplant production of chrysanthemum, sweetpotato, Chinese foxglove. Propagation systems via somatic embryogenesis in Acanthopanax koreanum and thornless Aralia elata were established using a liquid suspension of embryogenic determined cells. More than 500 000 somatic embryos in different stages were harvested from a 10-liter balloon-type bubble bioreactor after a 6-wk culture. Further development of these embryos in solid medium and eventually in the field was successful. The bioreactor system could reduce initial and operational cost for micropropagation, but further development of sophisticated technology might be needed to apply this system to plant micropropagation industries.     

Bottlenecks in Pinus radiata somatic embryogenesis: improving maturation and germination

Commercial deployment of clonal trees via somatic embryogenesis (SE) could increase forest productivity over conventional tree breeding techniques. However, some technical advances need to be made to use SE in clonal forestry with Pinus radiata. For example, the conversion of embryonal mass (EM) into plants is at present a major bottleneck. For this reason, maturation experiments were carried out to determine the effect of the initial amount of EM, activated charcoal (AC) and the best combination of abscisic acid (ABA), sucrose and amino acid concentration in the maturation medium. Germination was evaluated on different media formulations with and without AC. When 100 mg of EM were suspended in liquid medium without AC, cotyledonary somatic embryos were obtained in all the maturation media tested. Maturation medium supplemented with 60 μM ABA, 6% sucrose, and embryo development medium amino acid mixture produced the highest number of cotyledonary somatic embryos, between 10 and 1,550 embryos per gram of EM fresh weight. Approximately half of the tested 25 lines produced more than 600 embryos per gFW. Embryo development was the best when somatic embryos were germinated in half strength modified Quoirin and Lepoivre medium supplemented with 2 g L⁻¹ AC. This protocol simplified and improved SE maturation and germination due to the elimination of subcultures, the large number of somatic embryos obtained from a very low amount of EM, and the elimination of pre-germination treatments, resulting in a significant saving of cost and labor.     

Modulation of germination of embryos isolated from dormant and nondormant barley grains by manipulation of endogenous abscisic acid

Dormant and non-dormant barley (Hordeum distichum L.) grains with identical genetic backgrounds were obtained by maturing grains under different climate conditions. When isolated embryos from dormant grains were incubated in a well containing a fixed volume of water (300 l), the germination rate and percentage were dependent on the embryo number per well. A higher embryo number per well was correlated with a lower germination rate and percentage. However, this was not the case for the embryos isolated from nondormant grains. During germination, the endogenous cis-abscisic acid (ABA) in isolated embryos from both dormant and nondormant grains was analyzed. The inhibitory effect on germination of a higher number per well of isolated dormant embryos was due to diffusion of endogenous ABA out of the embryos and accumulation of ABA in the incubation medium. Moreover, there was de-novo synthesis of ABA in embryos isolated from dormant grains during incubation but not in embryos isolated from nondormant grains. The inhibitory effect of ABA on germination of embryos isolated from dormant grains could be mimicked by addition of ABA or the medium in which dormant embryos had been placed. Embryos isolated from nondormant grains were insensitive to addition of ABA and medium from dormant embryos. Our results demonstrate that diffusion of endogenous ABA, de-novo ABA synthesis and ABA sensitivity play a role in the control of germination. It is proposed that dormancy-breaking treatments act via changes to these processes.Abbreviations ABA cis-abscisic acid - E/W embryo(s) per well Prof. K.R. Libbenga (Institute of Molecular Plant Sciences, Leiden University) is thanked for fruitful discussions. B.V.D. was partly supported by E.E.C. BIOTECH program PL 920175.     

Embryogenesis from microspores of Ginkgo biloba L., a medicinal woody species

Summary The present work establishes that isolated microspores of Ginkgo biloba L. cultured at densities of 1.5 to 5·10⁴ per milliliter in Bourgin and Nitsch (1967) liquid medium are able to divide, both in the presence and in the absence of exogenous growth regulators, and to germinate by growing a pollen tube. In all experiments the microspores exhibited various modes of division leading to embryo formation in the liquid medium. Four weeks later, the microspores which had been previously submitted to various electrical stresses showed pro-embryo development earlier than those which had not. After ten weeks the number of embryos was found to be 300 to 5300 ml^–1 following the experiments. When the embryos exhibited a slower growth in liquid medium, they were transferred onto various solid media for maturation. Two months later, embryos had proliferated visibly.Abbreviations BN Bourgin and Nitsch (1967) medium - IAA Indole-3-acetic acid - KIN Kinetin - GS Growth substances     

不同萝卜品种游离小孢子的诱导及培养体系优化研究

以19个萝卜品种为试验材料,研究各种因素对萝卜游离小孢子培养的影响.结果表明:(1)13个品种可诱导出胚状体,诱导率达到68.4%,但不同品种间产胚量存在较大差异,其中路路通翠雪产胚量可达每蕾10个,而圆白萝卜的产胚量最小为每蕾0.125个,进一步培养有8个品种得到再生植株;(2)在NLN-13液体培养基中添加活性炭和6-BA对萝卜游离小孢子出胚有较好的促进作用,小孢子分离30d后将胚状体转移至固体MS培养基上,子叶型胚可获得大量的再生植株,而畸形胚状体转移后不能获得正常的再生植株.     

Effects of oocyte quality, oxygen tension, embryo density, cumulus cells and energy substrates on cleavage and morula/blastocyst formation of bovine embryos

Various factors, such as quality of the oocyte, oxygen tension, embryo density, and kind of energy substrate during in vitro production of embryos may affect the rate of preimplantation embryo development. In the present study we used 12553 bovine oocytes aspirated from slaughterhouse ovaries to evaluate various culture conditions that would increase in vitro production of advanced stages of preimplantation embryos. The morphological quality of the oocyte based on the compactness and number of layers of cumulus cells had significant positive effects on the rates of in vitro maturation, fertilization and development to the morula and blastocyst stages. None of the corona-enclosed or nude oocytes progressed beyond the 8- to 16-cell stage. The level of oxygen (5 or 20%) did not affect the proportion of one-cell embryos undergoing cleavage or progressing to morula and blastocyst stages. The rate of development of one-cell embryos originating from inferior quality oocytes was significantly improved when cultured in groups of 40 instead of 20 embryos per 0.5 mL medium. In the presence of cumulus cells, glucose had beneficial effects on in vitro maturation and subsequent development of IVM-IVF zygotes. The presence of serum improved the rate of in vitro development of one-cell embryos. Minimum Essential Medium supplemented with energy substrates according to the findings of metabolic studies was less effective in supporting in vitro maturation and subsequent development than TCM-199. In conclusion, morphological grading of immature oocytes is an appropriate selection criterion for their developmental ability. Embryo yields from low quality oocytes can be increased by culturing them in large groups. Serum is not essential for in vitro generation of embryos but its addition improves rates of success.     

Somatic embryogenesis and plantlet regeneration in the soybean Glycine max

A tissue culture procedure for the regeneration of somatic embryos and plantlets from somatic cells of the soybean Glycine max is described. Bean pods of soybean cv. TGM119 were immersed in liquid nitrogen for 20 minutes. Young embryos were excised from the immature seeds and cultured to form calli. Calli grown from the young embryos were incubated in liquid culture for two weeks. The liquid suspension culture was filtered to obtain single cells. The soybean cells were cultured for one month in a liquid medium in hanging drop cultures for development into proembryoids. The proembryoids were maintained on a solid growth medium for 40 days. The resultant callus tissue was transferred into MS media containing selected combinations and concentrations of 2,4-Dichlorophenoxyacetic acid, Naphthaleneacetic acid, Kinetin, Benzyladenine and Indoleacetic acid. In the presence of Benzyladenine (0.2 mg/l) and Indoleacetic acid (0.01 mg/l), globular and heart shaped somatic embryos were formed on the surface of the calli. Calli containing somatic embryos were transferred into liquid medium and incubated under low light conditions. After six months further incubation, more than 1,000 plantlets and a large number of somatic embryoids at various developmental stages were obtained per flask.Abbreviations KT kinetin - CM coconut milk - BA benzyladenine - NAA napthalene acetic acid - IAA indole acetic acid - 2,4-D 2,4 dichlorophenoxy acetic acid - MS Murashige and Skoog medium     

Effect of bioreactor configuration on the growth and maturation of Picea sitchensis somatic embryo cultures

Somatic embryo suspension cultures of Picea sitchensis (Sitka spruce) derived from two cell lines, SS03 and SS10, were grown in shake flasks, air-lift, bubble, stirred tank and hanging stirrer bar bioreactors. Cell line SS03 yielded freely suspended and individual stage 1 embryos, while the embryos of SS10 were present in large aggregates. Compared to shake flasks, proliferation in bioreactors resulted in increased biomass; however, cell line morphology influenced the effect of different bioreactor configurations on growth and maturation of embryo cultures. Somatic embryos grown in shake flasks and bioreactors were matured on gelled solid medium and in submerged culture where gelled solid medium was covered with a layer of liquid medium. The number of stage 3 (mature) embryos produced from SS03 in the bubble bioreactor was significantly higher than those from stirred tank and hanging stirrer bar bioreactors with both solid medium and submerged culture. Submerged culture was unsuitable for SS10 embryo maturation. This revised version was published online in June 2006 with corrections to the Cover Date.     

A method for quantification of the level of somatic embryogenesis among Norway spruce callus lines

A method for quantitative determination of the level of somatic embryogenesis in Norway spruce embryogenic callus is described. Embryogenic callus was dispersed in liquid by agitation and plated in a thin layer of medium containing 0.6% low melting point agarose. The number of embedded somatic embryos per mg of callus ranged from 0.2 to 1.5 among 11 embryogenic callus lines surveyed. Each callus line was derived from an individual immature embryo explant. Further development occurred as somatic embryos grew out of the agarose layer. This method was useful for identifying highly embryogenic callus lines among phenotypically similar lines, and should be useful for quantitatively determining the effect of medium and growth regulator modifications on somatic embryo density and developmental capacity.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - BAP 6-benzylaminopurine - IBA indole-3-butyric acid - ABA abscisic acid     

Improved and synchronized maturation of Norway spruce (<Emphasis Type="Italic">Picea abies</Emphasis> (L.) H.Karst.) somatic embryos in temporary immersion bioreactors

Somatic embryogenesis offers many benefits for clonal propagation in large-scale plant production of conifers. A key rate-limiting step is the conversion from early-stage somatic embryos in pro-embryogenic masses (PEMs) to the maturation stage. Immature embryos in PEMs are present at different developmental stages, where some are unable to respond to the maturation treatment, thus limiting yields of mature embryos. Synchronization of early somatic embryo development in PEMs could greatly improve subsequent yields of mature embryos. A temporary immersion bioreactor designed for Norway spruce (Picea abies (L.) H.Karst.) was used in this study. Through a specific system for dispersion, connected tissue of PEMs, composed of immature embryos grown in liquid medium in the temporary immersion bioreactors or on solid medium as a control, was dispersed and redistributed in a more uniform spatial arrangement. It was demonstrated that development of mature embryos could be significantly stimulated by dispersion, compared to controls, in both medium types. Synchronization of maturation was evaluated by a statistical approach. The present study shows that the yield of mature embryos from dispersed PEMs was three to five times higher than that from non-dispersed controls in three of four cell lines of Norway spruce tested, both in bioreactors and on solid medium.     

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.