Histology of Somatic Embryogenesis from Leaf Explants of the Oil Palm Elaeis guineensis

Histological analysis was carried out during the sequence ofevents which lead to the obtaining of somatic embryos of oilpalm. Calluses from the division of perivascular cells formedat the veins of young leaf explants. Subsequent proliferationof histologically similar nodules was by means of a cambium-likezone. Under certain conditions these calluses consisted almostentirely of meristematic cells. They then differentiated rapidly:the cambium-like zone fragmented, leading to protuberance inwhich the cells divide rapidly; epidermal structures were formed,with a network of procambial strands, and synthesis of storagelipids accompanied the formation of these embryo-like structureswhich developed into clumps of true somatic embryos, each witha shoot apex and a root apex. Other structures frequently observedduring in vitro culture are also described and show that alternatepathways do exist. The structure and evolution of somatic embryosare compared to those of zygotic embryos. Storage lipids emergeas an early tracer of the satisfactory development of tissuetowards somatic embryogenesis. Oil palm, Elaeis guineensis, histology, somatic embryogenesis, callogenesis, storage lipids     

Effect of Abscisic Acid, Osmoticum, and Desiccation on Synthesis of Storage Proteins during the Development of White Spruce Somatic Embryos

The effect of abscisic acid (ABA), non-permeating osmoticumand desiccation treatment on storage protein synthesis duringmaturation of somatic embryos of Picea glauca (Moench) Voss.was examined. Sodium dodecyl sulphate-polyacrylamide gel electrophoresis(SDS-PAGE) and Western blot analysis demonstrated that someof the major crystalloid and matrix polypeptides were absentfrom somatic embryos maturing on medium containing ABA and lowosmoticum. However, treatment with polyethylene glycol-4000(PEG) in combination with ABA resulted in the synthesis of aspectrum of storage polypeptides resembling that of mature zygoticembryos. These storage proteins accumulated throughout an 8-weekculture period, resulting in a threefold higher protein contentthan somatic embryos maturing for the same time in the absenceof PEG. The structure and distribution of protein bodies incells of these osmotically treated somatic embryos was similarto that in cells of mature zygotic embryos. Treatment with 5·0-7·5%PEG prevented catabolism of the accumulated storage polypeptidesduring desiccation. The optimal culture conditions for somaticembryo maturation and storage protein deposition was 16 µMABA and 7·5% PEG for 8 weeks followed by desiccation.Analysis of mRNAs by in vitro translation and immunoprecipitationof translated products showed that the crystalloid protein mRNAprofiles of zygotic and those of somatic embryos maturing on16 µM ABA in the absence of PEG were similar. The differencesobserved in the pattern of accumulated polypeptides in thesesomatic embryos and those of mature zygotic embryos, therefore,indicates that storage-protein synthesis in response to osmoticumis in part regulated at the translational level. During regenerationof somatic embryos to plantlets the storage polypeptides wererapidly utilized in a manner similar to that in zygotic seedlings.Copyright1993, 1999 Academic Press Desiccation, osmotic stress, storage proteins, Picea, embryogenesis—somatic, mRNA (crystalloid protein)     

Ultrastructural Studies of Somatic Embryos of Eucalyptus nitens and Comparisons with Zygotic Embryos Found in Mature Seeds

Although somatic embryogenesis has been observed in tissuesfrom a limited number of Eucalyptus species cultured in vitro,no comparisons have been made of the morphology and structureof eucalypt somatic embryos and zygotic embryos found in matureseeds. We used scanning and transmission electron microscopy,in conjunction with histological analysis, to compare maturezygotic embryos with somatic embryos of the commercially-importanttemperate eucalypt Eucalyptus nitens. Apart from differencesin the nature of the outer coating enclosing both embryo types,somatic embryos of E. nitens were observed to have strong similaritieswith zygotic embryos in seeds in terms of their overall size,morphology and internal cellular organization. Many cells inboth sexually-produced and somatic embryos contained numerouslipid-rich globular bodies. The wider significance of theseobservations is discussed with regard to their potential applicationsin eucalypt plantation biotechnology programmes. Copyright 2000Annals of Botany Company Eucalyptus nitens, shining gum, somatic embryo, tissue culture, ultrastructure, zygotic embryo     

Seed storage proteins in developing somatic embryos of alfalfa: defects in accumulation compared to zygotic embryos

Somatic embryos of alfalfa (Medicago sativa L.) synthesizedall of the major storage proteins of zygotic embryos; an 11Sglobulin (medicagin), a 7S globulin (alfin), and a 2S albumin(LMW). In zygotic embryos (cotyledons and/or axis) these storageproteins accounted for 30%, 10%, and 20%, respectively, of thetotal extractable protein. In somatic embryos the 7S proteinwas predominant while the 11S (particularly subfamily I) and2S proteins were present in lower amounts. Analysis of cultivarsand selfed seed of the embryogenic clone (RL34) demonstratedthat these differences were predominantly physiologically, ratherthan genetically, based. The accumulated 7S and 11S storageproteins of somatic embryos were processed normally, aggregatedas oligomers, and were deposited in protein bodies. This wasnot the case for the 2S storage protein. In somatic embryosthat protein was localized in the cytoplasm rather than in proteinbodies, the site of deposition in zygotic embryos. Key words: Medicago (alfalfa), zygotic/somatic embryos (seeds), storage proteins, immunolocalization     

Comparative study of reserve lipid accumulation during somatic and zygotic <Emphasis Type="Italic">Acca sellowiana</Emphasis> (O. Berg.) Burret embryogenesis

Somatic embryogenesis is an in vitro morphogenetic route in which isolated cells or a small group of somatic cells give rise to bipolar structures resembling zygotic embryos. Lipids, carbohydrates, and proteins are major compounds in plant and animal metabolism. Comparative analysis along different developmental stages of Acca sellowiana (Myrtaceae) zygotic and somatic embryos, revealed a progressive increase in levels of total lipids. A high degree of similarity could be found in the total lipids composition between A. sellowiana somatic and zygotic embryos. High lipid levels were found in zygotic embryos in the torpedo and cotyledonary stages, and these levels increased according to the progression in the developmental stages. Somatic embryos obtained through direct embryogenesis route showed higher levels of lipids than in indirect somatic embryogenesis. The compounds most frequently were linoleic acid (C18:2), palmitic (C16:0) and oleic (C18:1). These results indicate a high similarity degree of accumulation of total lipids, regardless of zygotic or somatic embryogenesis.     

Histological Analysis of Organogenesis and Somatic Embryogenesis Induced in Immature Tissues of Stylosanthes scabra

A well established protocol for in vitro germination of Stylosanthesscabra zygotic embryos was achieved. The response of S. scabraembryonic tissues cultured in vitro was highly dependent onthe kind of growth regulator used. Organogenesis was obtainedby using BAP, otherwise somatic embryogenesis was induced by2, 4-D. Histological aspects of both methods of regenerationwere evaluated. Endogenous neoformed buds seem to develop fromdeepseated vascular nodule structures into callus tissue. Besides,a direct somatic embryogenesis of a multicellular origin issuggested. Stylosanthes scabra, histology, organogenesis, somatic embryogenesis     

Embryogeny of gymnosperms: advances in synthetic seed technology of conifers

Synthetic seed technology requires the inexpensive production of large numbers of high-quality somatic embryos. Proliferating embryogenic cultures from conifers consist of immature embryos, which undergo synchronous maturation in the presence of abscisic acid and elevated osmoticum. Improvements in conifer somatic embryo quality have been achieved by identifying the conditions in vitro that resemble the conditions during in ovulo development of zygotic embryos. One normal aspect of zygotic embryo development for conifers is maturation drying, which allows seeds to be stored and promotes normal germination. Conditions of culture are described that yield mature conifer somatic embryos that possess normal storage proteins and fatty acids and which survive either partial drying, or full drying to moisture contents similar to those achieved by mature dehydrated zygotic embryos. Large numbers of quiescent somatic embryos can be produced throughout the year and stored for germination in the spring, which simplifies production and provides plants of uniform size. This review focuses on recent advances in conifer somatic embryogenesis and synthetic seed technology, particularly in areas of embryo development, maturation drying, encapsulation and germination. Comparisons of conifer embryogeny are made with other gymnosperms and angiosperms.Abbreviations ABA abscisic acid - LEA late embryogenesis abundant - PEG polyethylene glycol - PGR plant growth regulator - RH relative humidity - TAG triacylglycerol     

Lipid composition of somatic and zygotic embryos from Prunus avium. Effect of a cold treatment on somatic embryo quality

In order to evaluate the quality of Prunus avium somatic embryos, a comparison of lipid composition between somatic and zygotic embryos was undertaken. In both zygotic and somatic embryos, neutral glycerolipids (NL) and phosphatidylcholine (PC) were the 2 major lipid classes. The content of NL increased over the course of development in zygotic embryos and reached 490 μg per embryo, while the PC content reached 100 μg per embryo. However, the contents of NL and PC in somatic embryos were similar to immature zygotic embryos at stage 3. Fatty acid composition of NL from both zygotic and somatic embryos revealed more unsaturated than saturated fatty acids. In somatic embryos, the saturated/unsaturated fatty acid ratios of NL and phosphatidylinositol (PI) were similar to those observed in immature zygotic embryos up to stage 6. Conversely, in phosphatidylethanolamine (PE) the ratio was similar to the ratio observed in mature zygotic embryos, at stage 7. Histological studies confirmed the immaturity of somatic embryos: no protein or lipid reserves were observed in the vacuolated cotyledonary cells. Maturation of somatic embryos was improved by a 2-month cold period. In cold-treated somatic embryos, both NL and PC increased to levels comparable to those observed in mature zygotic embryos, and the PE content reached 10 times the level of that in mature zygotic embryos. The cold treatment induced a large increase in the saturated/unsaturated fatty acid ratio in phospholipids but only a slight increase in that of neutral glycerolipids. Histological studies revealed a lipid accumulation at cellular level. Lipid bodies surrounded by protein bodies were observed in cotyledonary cells of cold-treated somatic embryos. Furthermore, the cold-treated somatic embryos developed into plantlets with a frequency of 14%, whereas no development was obtained with the non-treated somatic embryos.     

Soluble carbohydrate content of soybean [Glycine max (L.) merr.] somatic and zygotic embryos during development

Summary Somatic and zygotic embryos of soybean cv. Jack were analyzed for soluble carbohydrate, total lipids, and protein during development. Zygotic embryos accumulated trace amounts of fructose, galactose, and galactinol., whereas somatic embryos contained only trace amounts of galactose. Somatic embryos accumulated much higher glucose levels than zygotic embryos. Both somatic and zygotic embryos contain low levels of sucrose, myoinositol, and pinitol. Raffinose and stachyose accumulated in the late developmental stages of zygotic embryos, but only stachyose was found to accumulate in the late stage somatic embryos. Zygotic embryos contained low total lipid levels up to 50 d after flowering (DAF) and then the levels increased to 16% by 55 DAF and 21% at 65 DAF. Somatic embryos had low levels of total lipids throughout development with the maximum of only 4.7%. Soybean zygotic embryos contained about 40% protein throughout development, while the protein concentration of somatic embryos decreased from 44% to 25% as maturation approached. These studies demonstrate that the composition of Jack zygotic embryos is similar to that described for other cultivars during development while the somatic embryo composition and size is markedly different. The low somatic embryo germination often noted might be due to the abnormal development as shown by a composition different from that of mature zygotic embryos. The low concentration of the raffinose series sugars might be especially important factors.     

Storage protein accumulation patterns in somatic embryos of cotton (Gossypium hirsutum L.)

Summary The storage protein content of somatic embryos of Gossypium hirsutum L. cv. Coker 201 was determined using extinction level, antigen/antibody association detection methods. Mature storage protein was first detected in early globular-stage somatic embryos at a total concentration of 0.36% of the embryo protein mass. Tulip-stage and mature somatic embryos were comprised of 3.0% and 1.3% mature storage protein, respectively. Maximum storage protein synthesis was found to occur during early globular- and early heart-stages. During this period of development, significant levels of protein precursors were found also to accumulate. The pattern of storage protein synthesis, processing and accumulation paralleled the pattern that has been reported for the zygotic system, although somatic embryos accumulate storage protein at much earlier stages and to a lesser degree. The possibility of using complex biochemical pathways to monitor embryogenic systems in vitro is discussed.     

The ultrastructure of somatic embryo development in pearl millet (Pennisetum glaucum; Poaceae)

The ultrastructure, morphology, and histology of somatic embryogenesis in pearl millet (Pennisetum glaucum) were examined using light and electron microscopic techniques. Somatic embryogenesis was initiated from zygotic embryo explants cultured 8 d after pollination. Formation of a ridge of tissue began 3–4 d after culture (DAC) by divisions in the epidermal and subepidermal cells of the scutellum. Ridge formation was accompanied by a decrease in vacuoles, lipid bodies, and cell size, and an increase in endoplasmic reticulum (ER). Proembryonic cell masses (proembryoids) formed from the scutellar ridge by 10 DAC. Proembryoid cells had abundant Golgi bodies and ER while the amounts of lipids and starch varied. Somatic embryos developed from the proembryonic masses 13 DAC and by 21 DAC had all the parts of mature zygotic embryos. Although shoot and root primordia of somatic embryos were always less differentiated than those of zygotic embryos, scutellar cells of somatic and zygotic embryos had similar amounts of lipids, vacuoles, and starch. Somatic scutellar epidermal cells were more vacuolated than their zygotic counterparts. In contrast, somatic scutellar nodal cells were smaller and not as vacuolated as in zygotic embryos. Somatic embryogenesis was characterized by three phases of cell development: first, scutellar cell dedifferentiation with a reduction in lipids and cell and vacuole size; second, proembryoid formation with high levels of ER; and third, the development of somatic embryos that were functionally and morphologically similar to zygotic embryos.     

Production of vigorous,desiccation tolerant white spruce (Picea glauca [Moench.] Voss.) synthetic seeds in a bioreactor

Summary This report describes a low-cost method for generating large numbers of high quality mature white spruce (Picea glauca [Moench.] Voss) somatic embryos which survived desiccation and grew to plantlets more vigorously than excised zygotic embryos cultured in vitro. Somatic embryos from suspension culture were supported within a culture chamber on a flat absorbent pad above the surface of a liquid culture medium containing 20–50 M abscisic acid and 7.5 % polyethylene glycol. Throughout a 7 week culture period 3 L of fresh medium was pumped into one end of the chamber, while the spent medium exited by gravity from the opposite end. Over 6,300 cotyledonary stage white spruce somatic embryos were recovered after this time from a single culture chamber without manual manipulation. The somatic embryos were of excellent appearance with well developed cotyledons, and possessed high levels of storage lipids. They survived drying to about 8 % moisture content following treatment for 4 weeks at 63 % relative humidity, and following imbibition converted to normal plantlets at a frequency of 92 %, compared to 80 % for embryos grown in Petri dishes. Somatic embryos cultured within the bioreactor developed to plantlets that were 20 % longer than zygotic embryos excised from mature seed and grown in vitro, and were 38 % longer than somatic embryos cultured upon agar medium in Petri dishes.Plant Research Centre contribution No. 1523     

Enhanced Maturation and Desiccation Tolerance of White Spruce [Picea glauca (Moench) Voss] Somatic Embryos: Effects of a Non-plasmolysing Water Stress and Abscisic Acid

A non-plasmolysing moisture stress effected by polyethyleneglycol (PEG) was beneficial when applied to maturing white spruce(Picea glauca) somatic embryos for the following reasons. Anosmotic treatment of 5.0–7.5% PEG stimulated a threefoldincrease in the maturation frequency. The osmotically treatedsomatic embryos displayed higher dry weights and lower moisturecontents than the controls, indicating a greater accumulationof storage reserves. Moisture contents of mature, osmotically-treated,hydrated somatic embryos were 40–45%, in contrast to 57%for the non-osmotically treated controls. Desiccation was achievedby placing the somatic embryos in a range of relative-humidityenvironments. No clear trend for the effect of PEG on survivalof desiccated somatic embryos was observed; mean survival valuesranged from 34 to 62% when somatic embryos from all osmotictreatments were desiccated for 14 d at 81% relative humidity.Following this desiccation treatment, somatic embryos from allosmotic concentrations had moisture contents of 26–31%,similar to the 32% recorded for unimbibed zygotic embryos. Afterimbibition, moisture contents for these zygotic and somaticembryos were in the order of 60%. Somatic embryos matured withPEG remained quiescent during desiccation due to their low initialmoisture contents, and gave rise to plantlets of normal appearance.Gradual desiccation of the somatic embryos directly followingmaturation with abscisic acid (ABA) was crucial to survivalduring desiccation. A plasmolysing water stress effected bysucrose at osmotic potentials similar to PEG was detrimentalto somatic embryo maturation, thereby emphasizing the importanceof the choice of osmoticum. Desiccation, maturation, osmotic potential, Picea glauca, polyethylene glycol, somatic embryo, water stress, white spruce     

Ontogenesis, Differentiation and Precocious Germination in Anther-derived Somatic Embryos of Grapevine (Vitis vinifera L.): Embryonic Organogenesis

Somatic embryos ofVitis vinifera L. ‘Grenache noir’develop abnormally and form viable plantlets at very low frequencies.They grow continuously and, after the torpedo stage, they formgiant structures which do not undergo further organogenesis.Morphological, histological and cytochemical data were usedto study development from the globular to the giant-embryo stage.Histological organization of somatic embryos until the torpedostage was similar to that of zygotic embryos. Somatic embryosformed bipolar axes, which differentiated precociously and simultaneouslya root and a shoot meristem. However, they differed from theirzygotic homologues by forming a cotyledonary crown or multiplecotyledons and by their rapid cellular differentiation. At theend of the torpedo stage and up to the giant-embryo stage, somaticembryos underwent some characteristic events of germination:the radical grew, tannins accumulated, and protodermal cellssuberized. However the shoot apex was rapidly disorganized anddisappeared. This peculiar behaviour is discussed in comparisonwith the phenomenon of precocious germination often observedfor immature zygotic embryos inin vitro culture. Vitis vinifera ; grapevine; somatic embryo development; precocious germination; histology     

Sucrose requirements and lipid utilization during germination of interior spruce (Picea glauca engelmannii complex) somatic embryos

Both somatic and excised zygotic embryos of interior spruce (Picea glauca engelmannii complex) required exogenous sucrose in the medium for germination in vitro. Over a period of 29 days on sucrose-containing medium germinants with roots and epicotyls developed from both kinds of embryo, and their content of linolenic acid (9,12,15-18:3) increased about six- to eightfold. Without added sucrose, embryos showed retarded growth or were necrotic, and the content of linolenic acid was barely detectable in their fatty acid profiles. Through¹⁴C-sucrose uptake studies, it was determined that germinants consumed only 25% of the sucrose available in a 1% (wt/vol) sucrose-containing medium. Since no radiolabelled fatty acids were detected, it appears that externally supplied sucrose was not used in the synthesis of lipids. Although sucrose was present during plantlet development, 72% of the initial lipids were consumed. To some extent, the plantlets appeared to be obligate storage lipid utilizers.Abbreviations 2,4-D 2,4-Dichlorophenoxyacetic acid - FAMEs Fatty acid methyl esters - HPLC High-performance liquid chromatography     

Origin and Development of Somatic Embryoids Formed Directly on Immature Embryos of Trifolium repens In Vitro

When immature zygotic embryos of Trifolium repens are culturedin vitro in the presence of 0.05 mg 1^–1 BAP, the cellsof the hypocotyl epidermis proliferate to produce somatic embryoidsdirectly without an intervening callus phase. The young epidermalcells show features of proembryogenic cells, and the first signof embyroid induction is a shift from regular equational, anticlinaldivisions to irregular, periclinal and oblique quantal divisions.Multicellular budding and single-cell initiation apparentlyboth occur, with multicellular budding being the more frequentpattern in the present study. Most early proembryoids resembleglobular zygotic proembryos but appear to lack a suspensor.It is suggested that the subtending embryonic tissue fulfilsthe role of a suspensor or proembryonal complex. Secondary proliferationsfrom the young cotyledon and hypocotyl epidermis of primaryembryoids are formed by processes similar to those producingprimary embryoids, and also from structures initially resemblingepidermal hairs. These hair-like structures arise from singlesuperficial cells which show evidence of cutinisation and callosedeposition suggesting some degree of physical separation fromneighbouring cells. Trifolium repens, tissue culture, somatic embryogenesis, embryoid, legume     

Effects of Desiccation, Medium Osmolarity and Abscisic acid on the Maturation of Hevea brasiliensis Somatic Embryos

The effects of desiccation of Hevea somatic embryos and of sucroseand ABA concentrations in the maturation medium on their germinabilitywere investigated. Conversion into plant, water and histochemicalstatus of somatic embryos were compared systematically to thoseof the zygotic embryos used as reference. Slow desiccation ormaturation on 351 mol m^–3 sucrose supplemented with 1mmol m^–3 ABA strongly improved germinability and conversionof embryos into plants. The combination of the two treatmentswas the most effective, increasing the germination frequencyby 3·7 and plant conversion by 6·6 in clone PR107. Each of these two treatments increased the vigour of somaticembryos, stimulated the formation of root and shoot meristemsand the synthesis and accumulation of starch and protein reserves.At the end of maturation, the Hevea somatic embryos bore ananatomical and histochemical resemblance to mature zygotic embryos.Likewise, the two treatments brought the water status of somaticembryos closer to that of the mature zygotic embryos, but withoutachieving a perfect match. Optimization of the successful conversioninto plants may require full acquisition of this water status. Key words: ABA, embryo maturation, Hevea, somatic embryogenesis, water status     

Somatic embryogenesis in tamarillo (<Emphasis Type="Italic">Cyphomandra betacea</Emphasis>): approaches to increase efficiency of embryo formation and plant development

Somatic embryogenesis induction and somatic embryo development of the solanaceous tamarillo tree were previously established and successfully used for plant regeneration from different explants and varieties. Somatic embryogenesis was induced in Murashige and Skoog medium containing 2,4-dichlorophenoxyacetic acid (2,4-D) or picloram and high sucrose concentrations (0.25 M). The embryogenic tissues were transferred to an auxin-free medium, with reduced sucrose levels, to permit embryo development and conversion into plantlets. This two-step protocol is often impaired by an ineffective transition from the proembryogenic masses to embryo development. In this work, attempts to optimize the somatic embryogenesis system of tamarillo by improving the quality of somatic embryo and embryo conversion were carried out. The results showed that the presence of a high number of abnormal somatic embryos did not significantly inhibit plant conversion, hence indicating that shoot apical meristem development was not affected in abnormal somatic embryos. It was also shown that the manipulation of sucrose concentration in the development medium (0.11 M) and dark conditions before conversion increased the number of morphologically normal somatic embryos. The comparison between mature cotyledonary zygotic and somatic embryos showed an inefficient accumulation of storage compounds, mainly lipids, in somatic embryos. These reduced levels of lipid storage could be responsible for the abnormal patterns of embryo development found in tamarillo somatic embryos.     

Developmental Aspects of Soybean (Glycine max) Somatic Embryogenesis

A detailed study of the developmental aspects for soybean somaticembryogenesis was undertaken with emphasis on biochemical andhistological markers. The various stages of somatic embryo developmentin callus cultures have been identified and characterized. Germinatingembryos could be converted to fertile plants at a high frequency(90%). Dicamba (3, 6-dichloro-o-anisic acid) was found to bethe auxin of choice for the clear distinction of the variousdevelopmental phases of soybean somatic embryos. Differencesin their protein patterns were determined using polyacrylamidegel electrophoresis. This analysis revealed distinguishabledifferences in protein profiles amongst the various developmentalstages, especially in heart stage embryos. Histological studieson somatic embryos revealed specific tissue types which closelyresemble those reported for zygotic embryos. Further evidenceis provided that there is a close similarity in tissue differentiation,between somatic and zygotic embryogenesis although there aresome unique features in the development of somatic embryos. Glycine max, callus cultures, developmental stage, liquid cultures, neomorphs, plant regeneration, stage specific proteins, histology     

Development of white spruce (Picea glauca (Moench.) Voss) somatic embryos during culture with abscisic acid and osmoticum, and their tolerance to drying and frozen storage

The limit of permeability of white spruce (Picea glauca [Moench.]Voss) somatic embryo cell walls to molecules was in the orderof 30 . Polyethylene glycols (PEGs) and dextrans of molecularweights greater than 1000 and 6000, respectively, produced anonpermeating (non-plasmolysing) water stress which improvedembryo development. Somatic embryos converted to plantlets atfrequencies of 76–84% following slow drying and storageat –20 C for 1 year, which was similar to the 77% recordedfor control somatic embryos slowly dried then germinated withoutfreezing or storage. Culture for 7–8 weeks with mediumcontaining abscisic acid, 3% sucrose, and 7.5% PEG 4000 yieldedsomatic embryos with five times the embryo storage lipid contentrecorded for zygotic embryos. During culture with PEG the moisturecontent of the somatic embryos decreased from 96% for immaturesuspension-cultured somatic embryos, to 47% for mature embryos.Somatic embryos cultured for 7–8 weeks survived rapiddrying to 5% moisture content, and converted to plantlets atfrequencies of 60–70%, but no somatic embryos survivedrapid drying when cultured for only 4 weeks; however, slow dryingdid induce desiccation tolerance in 3-week cultured somaticembryos. Abscisic acid was important to maintain embryos ina developmental state, but ABA alone did not induce desiccationtolerance. In order to induce desiccation tolerance a waterstress treatment was required. Tolerance of rapid drying coincidedwith moisture contents below 55%, which occurred after 5 weeksof culture in the presence of PEG 4000 and abscisic acid. Key words: Dextran, molecular weight, polyethylene glycol, triacylglycerol, water stress