Somatic embryogenesis in pumpkin (Cucurbita pepo L.): control of somatic embryo development by nitrogen compounds

Embryogenic cultures of pumpkin (Cucurbita pepo L.) were initiated from mechanically wounded mature zygotic embryos on 2,4-D-containing MS medium, and on hormone-free, semisolid modified MS medium containing NH4Cl as the sole source of nitrogen. The habituated line was derived from the embryogenic tissue induced with 2,4-D and maintained on medium without growth regulators. Sustained subculturing of the three embryogenic lines on a medium with NH4Cl as the sole source of nitrogen enabled the establishment of highly uniform cultures in which no further development into mature embryo stages occurred. The tissue consisting of proembryogenic globules or globular stage embryos was maintained, without decline, for over six years. Globular embryos proceeded to maturity when a combination of reduced (NH4) and unreduced (NO3) forms of nitrogen was provided in the medium. Different nitrogen sources in the medium caused changes of medium pH during subculture in the pH range of 4.0-6.5. The tissue growth and embryo development were blocked on medium with pH adjusted and stabilized at 4.0 or at 3.2.     

Somatic proembryo production from excised,wounded zygotic carrot embryos on hormone-free medium: evaluation of the effects of pH,ethylene and activated charcoal

Summary Wounded zygotic embryos of cultivated carrot produce somatic proembryos on hormone-free nutrient medium containing 1 mM NH ₄ ⁺ as the sole nitrogen source. Continued maintenance of proembryos on this medium leads to a pure culture of preglobular stage proembryos (PGSPs). Ethylene had no effect on this process. Also, somatic embryo production was not affected by growing cultures on activated charcoal-impregnated filter papers. However, somatic proembryos initiated on activated charcoal papers were not maintainable as PGSPs and developed into later embryo stages. Normally, medium pH dropped from 5.7 to 4 during each subculture period, but when using activated charcoal papers the pH endpoint was around 6–7 due to a leachable substance(s) within the filter papers. When powdered, activated charcoal was used in the medium as an adsorbent of products potentially released after wounding, pH dropped at the normal rate and to the expected levels; proembryos did not mature into later embryo stages and were maintainable exclusively as PGSPs. Low pH ( 4) is detrimental to proembryo production, but is essential to maintaining PGSPs on hormone-free nutrient medium, whereas a sustained pH >5.7 allows continued development of PGSPs into later embryo stages.     

Somatic embryogenesis of carrot in hormone-free medium: external pH control over morphogenesis

Cultures of preglobular stage proembryos (PGSPs) were initiated from mechanically wounded mature zygotic embryos of carrot, Daucus carota, on a hormone-free, semisolid medium. These PGSPs have been maintained and multiplied for extended periods without their progression into later embryo stages on the same hormone-free medium containing 1 mM NH4+ as the sole nitrogen source. Sustained maintenance of cultures comprised exclusively of PGSPs was dependent on medium pH throughout the culture period. Best growth and multiplication of PGSP cultures occurred when the pH of unbuffered, hormone-free medium fell from 4.5 to 4 over a 2-week period or when buffered medium was titrated to pH 4. If the hormone-free medium was buffered to sustain a pH at or above 4.5, PGSPs developed into later embryo stages. Maintenance with continuous multiplication of PGSPs occurred equally well on medium containing NH4+ or NH4+ and NO3-, but growth was poor with NO3- alone. Additional observations on the effects of medium components such as various nitrogen sources and levels, sucrose concentration, semisolid supports, type of buffer, borate concentration, activated charcoal, and initial pH that permit optimum maintenance of the PGSPs or foster their continued developmental progression into mature embryos and plantlets are reported. The influence of the pH of the hormone-free medium as a determinant in maintaining cultures as PGSPs or allowing their continued embryonic development are unequivocally demonstrated by gross morphology, scanning electron microscopy, and histological preparations.     

栓皮栎体细胞胚胎发生的细胞组织学观察

以栓皮栎未成熟合子胚为外植体,在添加0.25mg/L 2,4-D和0.5mg/L 6-BA的MS培养基上6周可诱导产生2种类型的胚性愈伤组织,一种表面具光泽、白色;另一种表面光滑湿润具光泽,色泽淡黄或无色透明。组织切片表明,胚性愈伤组织的细胞体积小,细胞核大,细胞质浓,细胞排列紧密;非胚性愈伤组织细胞的体积大,细胞核小,细胞质稀薄。胚性细胞团培养在不含激素的培养基上可诱导产生体细胞胚。体细胞胚直接起源于胚性细胞团表皮或近表皮的单细胞,经历与合子胚相似的球形胚、心形胚、鱼雷胚和子叶胚发育阶段。所有发育时期的体细胞胚的胚轴、子叶均产生次生体胚,它们起源于细胞质较浓的表皮单细胞。     

Changes in soluble carbohydrates and starch amounts during somatic and zygotic embryogenesis of Acca sellowiana (Myrtaceae)

Comparative analysis of zygotic and somatic embryogenesis of Acca sellowiana showed higher amounts of sucrose, fructose, raffinose, and myo-inositol in zygotic embryos at different developmental stages than in corresponding somatic ones. These differences were mostly constant. In general, glucose levels were significantly lower than the other soluble carbohydrates analyzed, showing minor variation in each embryo stage. Despite the presence of sucrose in the culture medium, its levels conspicuously diminished in somatic embryos compared with the zygotic ones. Raffinose enhanced parallel to embryo development, regardless of its zygotic or somatic origin. Analysis of the soluble carbohydrate composition of mature zygotic cotyledon used as explant pointed out fructose, glucose, myo-inositol, sucrose, and raffinose as the most important. Similar composition was also found in the corresponding somatic cotyledon. Total soluble carbohydrates varied inversely, decreasing in zygotic embryos and increasing in somatic embryos until the 24th d, at which time they increased rapidly about sixfold in zygotic embryos until the 27th d, a period coinciding with the zygotic proembryos formation. Such condition seems to reflect directly the variation of endogenous sucrose level, mainly because glucose and fructose diminished continuously during this time period. This means that, in terms of soluble sugars, zygotic embryo formation occurred under a situation represented by high sucrose amounts, simultaneously with low fructose and glucose levels, while in contrast, somatic embryo formation took place under an endogenous sugar status characterized by a substantial fructose enhancement. Starch levels increased continuously in zygotic embryos and decreased in somatic ones, the reverse to what was found in fructose variation. Starch accumulation was significantly higher in somatic torpedo and cotyledonary embryos than in the corresponding zygotic ones.     

Somatic embryogenesis from callus cultures of <Emphasis Type="Italic">Terminalia chebula</Emphasis> Retz.: an important medicinal tree

Somatic embryogenesis was obtained from cotyledon and mature zygotic embryo callus cultures of Terminalia chebula Retz. Callus cultures of cotyledon and mature zygotic embryo were initiated on induction medium containing Murashige and Skoog (MS) nutrients with 1.0 mg/l 2,4-dichlorophenoxyacetic acid (2,4-D) either 0.01 or 0.1 mg/l Kinetin and 30 g/l sucrose. Induction of somatic embryogenesis, proliferation and development was obtained through different culture passages. Embryogenic cotyledon callus with globular somatic embryos was obtained on MS basal medium supplemented with 50 g/l sucrose. Globular somatic embryos were observed from mature zygotic embryo callus on induction medium. Different stages of somatic embryo development from cotyledon and mature zygotic embryo calluses were observed on MS basal medium supplemented with 50 g/l sucrose after 4 weeks of culture. Histological studies have revealed the developmental stages of somatic embryos. A maximum of 40.3±1.45 cotyledonary somatic embryos/callus was obtained from mature zygotic embryo compared to 7.70±0.37 cotyledonary somatic embryos/callus initiated from cotyledons. Germination of somatic embryos and conversion to plants were achieved. Highest frequency of germination (46.66±0.88) of somatic embryos was obtained on MS basal medium containing benzyladenine (0.5 mg/l) with 30 g/l sucrose.     

Somatic embryogenesis and plant regeneration in avocado (Persea americana Mill.): influence of embryogenic culture type

Embryogenic cell lines of Persea americana were classified as SE- or PEM-type based on their morphology in maintenance medium. PEM-type cultures consisted of proembryonic masses (PEMs) with occasional development of proembryos and early-stage somatic embryos, while SE-type cultures consisted of somatic embryos from globular to cotyledonary stages with only a low frequency of proembryos and PEMs. Moreover, histological analysis revealed signs of cellular organisation, with a higher proportion of small cells in peripheral regions of the callus mass in the SE-type, but not in PEM-type cell lines. The effects of time in suspension, inoculum density and maintenance medium on the ability of avocado cell lines to produce mature somatic embryos were evaluated. Morphological differences observed during proliferation were correlated to the subsequent capacity of cultures to develop mature somatic embryos. The period of time in suspension and inoculum density were critical factors that influenced the ability of cultures to undergo maturation. Optimal conditions differed between SE-type cultures and PEM-type cultures. In SE-type cultures, the highest number of somatic embryos was observed in cultures grown in suspension for 9?days and 0.4?g inoculum; in PEM-type cultures a slight increase in mature somatic embryos production could be observed with 4?g inoculum size and 14?days in suspension. The presence of agar in the maintenance medium of SE-type cultures was essential for the maturation of somatic embryos.     

雷竹体细胞胚诱导的初步研究

以雷竹（Phyllostachys violascens）种胚为外植体, 脱分化产生愈伤组织, 愈伤组织诱导产生体细胞胚, 并发育成苗。实验结果表明： 愈伤组织诱导体细胞胚基本培养基为MS无机盐＋20 g·L^-1葡萄糖（glucose）＋10 mg·L^-1腺嘌呤（adenine sulfate）＋ 0.5 g·L^-1麦芽抽提物（malt extract）＋0.1 mg·L^-1 6-BA＋0.01 mg·L^-1氨氯吡啶酸（picloram）＋10 g·L^-1type A agar; 将基本培养基中的氨氯吡啶酸浓度升高至0.1 mg·L^-1即为愈伤组织诱导的最佳培养基, 早期子叶胚是愈伤组织诱导的最佳胚体; 愈伤组织在添加0.001 mg·L^-1TDZ和0.3 mg·L^-1ABA的愈伤组织最佳培养基上光照培养4周后, 去除其中的ABA, 并添加0.1 mg·L^-1NAA继续培养1个月, 体细胞胚数量最多可达87.43%, 该培养基是体细胞胚发生的最佳培养基; 将上述体细胞胚发生培养基中的6-BA浓度升高至1 mg·L^-1, 继代培养2个月后有小苗出现。组织学观察显示, 体细胞胚细胞核大、质浓且多数呈球形原胚状。     

小麦组织培养中体细胞胚胎发生的细胞胚胎学及淀粉消长动态的研究

小麦幼胚在附加2,4-D 2 mg/L+KT0.5 mg/L+LH 300 mg/L+3%蔗糖的MS 培养基上诱导出愈伤组织,继代2—3次后,降低2,4-D 的浓度,该愈伤组织约以60%的频率转变为胚性愈伤组织,继而形成不同发育期的体细胞胚。这些体细胞胚是起源于愈伤组织表层或近表层的单个胚性细胞,体细胞胚经球形胚、梨形胚、盾片胚、成熟胚而成再生植株。在胚性细胞内淀粉粒大最积累,淀粉颗粒大而密集。随着胚性细胞的分裂,淀粉逐渐被消耗,到多细胞原胚期,胚体细胞内淀粉粒趋于消失。球形胚期淀粉粒又开始积累,但到成熟胚期,淀粉积累只限于生长点区域,尔后随着胚体萌发,淀粉含量又趋于减少。这一消长动态过程与小麦合子胚发生中淀粉代谢动态基本一致。     

Somatic embryogenesis in cell suspension cultures of Acacia sinuata (Lour.) Merr.

Summary Suspension cultures initiated from calluses derived from seedling leaf explants of Acacia sinuata (Lour.) Merr. produced somatic embryos. Embryogenic callus was induced on semisolid MS (Murashige and Skoog, 1962) medium supplemented with 4.52 μM 2,4-dichlorophenoxyacetic acid (2,4-D) and 2.22 μM 6-benzylaminopurine. A high frequency of somatic embryos was induced in MS liquid medium supplemented with 4.52 μM 2,4-D and 10% coconut water. Further studies on ontogeny of somatic embryos showed that the cells destined to become somatic embryos divided into spherical proembryos. Subsequent development led to the formation of globular, heart, torpedo-shaped and cotyledonary-stage embryos. The conversion of somatic embryos occurred on auxin-free MS medium. Effects of various auxins, cytokinins, carbohydrates and amino acids in enhancing productin, of somatic embryos were studied. MS medium supplemented with 87.64 mM sucrose and 342.46 μM glutamine promoted higher somatic embryo production whereas cytokinin had no effect and led to recallusing of embryos. About 8–10% of embryos converted into plants.     

Micromorphology,structural and ultrastructural changes during somatic embryogenesis of a Tunisian oat variety (<Emphasis Type="Italic">Avena sativa</Emphasis> L. var ‘Meliane’)

To better understand micromorphological and structural changes, histological sections provide additional insight into cellular process and developmental pathways occurring in oat somatic embryogenesis. Environmental scanning electron microscopy (ESEM) and transmission electron microscopy (TEM) were also used to follow the ultrastructural modifications during this system. Histological observations allowed following the events leading to the development of mature somatic embryos. The scheme includes the following steps: cell reactivation, the first organized cell division in diads, triads, tetrads as well as octant stages, the observation of an extracellular matrix (ECM) as a fibrillar material that bounded the surface of individualized proembryos. The transition from proembryo stage to an early globular somatic embryo was noted, where the embryogenic cortex is surrounded by the protoderm. The late globular stage was marked by bipolarity. The early and late transitional stages, the coleoptilar, mature and germinated stages were also described. The ESEM allowed us to follow some rearrangements, related to the morphology and surfaces involved in somatic embryos development. These events are proembryo formation, transition from proembryo to globular stage, marked by protoderm formation, scutellum and coleoptile development and finally somatic embryos germination. The TEM showed that embryogenic cells were very rich in organelles; mitochondria, rough endoplasmic reticulum, Golgi apparatus and ribosomes. Cells of proembryos, globular and late somatic embryos showed more vacuoles and differentiated organelles. The ECM was also detected by TEM as fibrillar material coating the cell walls. These results on structural and ultrastructural changes provided new insights and findings on oat somatic embryogenesis.     

Contrasting pattern of somatic and zygotic embryo development in alfalfa (Medicago sativa L.) as revealed by scanning electron microscopy

Scanning electron microscopy has been used to investigate the morphological changes occurring during the development of alfalfa somatic embryos. Embryos were initiated from callus, transferred to suspension culture and matured on solid agar medium. This developmental pattern was compared to that of zygotic embryos developing in ovulo. Somatic embryos begin as distinct pro-embryos within the callus tissue pieces placed in suspension culture. They become globular and heart-shaped while on solid agar medium and then undergo cotyledon elongation and maturation. Somatic embryos develop comparatively slower at early stages of development and faster at the later stages than zygotic embryos. They lack a well-defined suspensor and have a very rough, poorly-differentiated epidermis, the first layer of which is lost after pro-embryo formation. The cotyledons of somatic embryos are multiple and poorlydeveloped; there appears to be a correlation between the amount of surface roughness of the developing embryo and the extent to which polycotyledony occurs.     

花楸合子胚诱导体细胞胚胎发生研究

分别以完整成熟胚、切去一个子叶的成熟胚和切下的子叶为外植体,以MS为基本诱导培养基、1/2MS为基本分化培养基,进行了花楸体细胞胚胎发生研究。结果表明:以完整合子胚作为外植体的体胚诱导率最高,为100%,最佳植物生长调节剂组合为5 mg.L-1NAA+2 mg.L-16-BA;NAA和6-BA浓度及二者的交互作用对愈伤组织和体胚诱导率的影响极显著;光照配合延长继代间隔时间有利于体胚发生。实体观察结果表明,花楸体胚发生方式有直接发生和间接发生两种;体胚发育经历了球形期、心形期、鱼雷形期和子叶期。组织学观察结果表明,体胚具有两极性,子叶期体胚结构完整。     

Maturation of avocado somatic embryos and plant recovery

Avocado proembryonic masses from suspension cultures were used to develop a protocol for somatic embryo development and maturation. Avocado somatic embryos could develop from proembryonic masses both in liquid and on semisolid medium but only the latter could develop to maturity. Size and number of opaque somatic embryos were affected by gellan gum concentration, with the optimum response obtained on medium supplemented with 6–7 g l⁻¹ gellan gum. The optimum sucrose concentration for recovery of opaque somatic embryos was 90 g l⁻¹; however, the development of embryos was suppressed at this concentration. Consequently, recovery of cotyledonary, opaque somatic embryos was achieved on medium with 30 g l⁻¹ sucrose. Somatic embryo development from dedifferentiating proembryonic masses required media with a high ratio of NO ₃ ⁻ :NH ₄ ⁺ (1:0 and 3:1) as opposed to the standard ratio (2:1) of MS medium. Germination of somatic embryos was sporadic. In order to increase the frequency of plant recovery, shoots that developed from somatic embryos were micropropagated using standard protocols. This revised version was published online in June 2006 with corrections to the Cover Date.     

Low external pH replaces 2,4-D in maintaining and multiplying 2,4-D-initiated embryogenic cells of carrot

A mixed culture comprised of both embryonic globules and nonembryogenic callus. was derived from seedling hypocotyls of Daucus carota cv. Scarlet Nantes on 2,4-D-containing medium using well-established methods. Then the mixed cultures were transferred to, and serially subcultured on, a hormone-free medium near pH 4. The medium contained 1 m M NH+ as the sole nitrogen source. When cultured in this way, embryonic globules were able to multiply without development into later embryo stages Nonembryogenic callus did not survive. Continuous culture of embryonic globules on this low pH hormone-free medium yielded cultures consisting entirely of preglobular stage proembryos (PGSPs). PGSP cultures have been maintained as such with continuous multiplication for nearly 2 years without loss of embryogenic potential. These hormone-free-maintained PGSPs continue their development to later embryo stages when cultured on the same hormone-free medium buffered at pH 5.8. We show that hormone-free medium near pH 4 can replace 2.4-D in its ability to sustain multiplication of 2,4-D-initiated embryogenic cells of carrot at an acceptable growth rate without their development into later embryo stages. This procedure provides selective conditions that do not permit the growth of nonembryogenic cells while providing an adequate environment for embryogenic cell proliferation and should prove invaluable in studying habituation.     

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.     

Histological comparison of single somatic embryos of maize from suspension culture with somatic embryos attached to callus cells

An embryogenic suspension culture of Zea mays, genotype 4C1, was obtained from friable callus that was cultured on solid medium and had been obtained from zygotic embryos. The suspension contained non-dividing elongated cells, clusters of dividing isodiametric cells, and globular, ovoid, and polar stages of somatic embryos. The single somatic embryos were blocked in shoot meristem formation: when transferred to regeneration medium they developed a root and, at the shoot side, a green cap with meristematic cells, but a scutellum and leaf primordia were not formed. In medium containing 2,4-dichlorophenoxy acetic acid, somatic embryos formed embryogenic callus aggregates, consisting of globular stage somatic embryos attached to each other via undifferentiated callus cells. These somatic embryos developed into mature embryos with the zygotic histological characteristics, such as scutellum and leaf primordia, in maturation medium, and then regenerated into plants in regeneration medium. By omitting the maturation phase, regeneration occurred via organogenesis. Polyembryos, i. e. embryos attached to each other without callus tissue in between, behaved as single somatic embryos. It is concluded that the attached callus tissue provides a factor that stimulates scutellum and leaf primordia formation.Abbreviations CMM callus maintenance medium - 2,4D 2,4-dichlorophenoxy acetic acid - PCV packed cell volume - MS Murashige and Skoog medium     

In vitro plant regeneration from embryogenic cultures of a diploid and a triploid,Cavendish banana

Plant regeneration by somatic embryogenesis was attempted with diploid (Musa acuminata ssp. malaccensis) and triploid ('Grand Nain') bananas. Explants inoculated in vitro were, respectively, immature zygotic embryos and male flower bud primordia. An histological study showed that the embryogenic process involves a sequence of similar events for both species. A yellow-green compact callus was initiated, which consisted of an actively dividing meristematic zone surrounded by several layers of starchy cells. A white and friable callus, characterized by the presence of proembryonic cells, bicellular proembryos and proembryonal masses in its periphery gradually appeared, which finally gave rise to somatic embryos from which plants were recovered. Induction media contained 2,4-D (and also NAA and IAA for the triploid); zeatin and kinetin were necessary for embryo maturation and 6-BA and IAA were used for germination. This revised version was published online in June 2006 with corrections to the Cover Date.     

Developmental plasticity of glandular trichomes into somatic embryogenesis in Tilia amurensis

BACKGROUND AND AIMS: In Tilia amurensis, two types of trichomes (hairy and glandular) develop from epidermal surfaces of cotyledons and hypocotyls of zygotic embryos soon after germination. Here, it is demonstrated that glandular trichome initials develop directly into somatic embryos when treated in vitro with 2,4-dichlorophenoxyacetic acid (2,4-D). METHODS: Zygotic embryos of Tilia amurensis were cultured on Murashige and Skoog medium with 3 % sucrose and various concentrations (0, 2.2, 4.4 and 8.8 microm) of 2,4-D. Morphological development of trichomes and somatic embryos was analysed by scanning electron microscope and light microscope after histological sectioning. KEY RESULTS: In zygotic embryos cultured on medium with 4.4 microM 2,4-D, formation of hairy trichomes was completely suppressed but formation of glandular trichome initials increased. That some filamentous trichome initials developed directly into somatic embryos was confirmed by histological and scanning electron microscope observation. When explants with different stages of trichome initials (two-, four- and eight-celled filamentous and fully mature trichomes) were temporally pre-treated with 4.4 microM 2,4-D for 24 h and transferred into hormone-free medium, two-celled and four-celled filamentous trichome initials were the effective stage of trichomes for somatic embryo induction. CONCLUSIONS: It is suggested that early developing filamentous trichome initials have developmental plasticity and that with 2,4-D treatment these trichome initials develop directly into somatic embryos.     

Differences in protodermal cell wall structure in zygotic and somatic embryos of <Emphasis Type="Italic">Daucus carota</Emphasis> (L.) cultured on solid and in liquid media

The ultrastructure, cuticle, and distribution of pectic epitopes in outer periclinal walls of protodermal cells of Daucus carota zygotic and somatic embryos from solid and suspension culture were investigated. Lipid substances were present as a continuous layer in zygotic and somatic embryos cultured on solid medium. Somatic embryos from suspension cultures were devoid of cuticle. The ultrastructure of the outer walls of protodermis of embryos was similar in zygotic and somatic embryos from solid culture. Fibrillar material was observed on the surface of somatic embryos. In zygotic embryos, in cotyledons and root pectic epitopes recognised by the antibody JIM5 were observed in all cell walls. In hypocotyls of these embryos, these pectic epitopes were not present in the outer periclinal and anticlinal walls of the protodermis. In somatic embryos from solid media, distribution of pectic epitopes recognised by JIM5 was similar to that described for their zygotic counterparts. In somatic embryos from suspension culture, pectic epitopes recognised by JIM5 were detected in all cell walls. In the cotyledons and hypocotyls, a punctate signal was observed on the outside of the protodermis. Pectic epitopes recognised by JIM7 were present in all cell walls independent of embryo organs. In zygotic embryos, this signal was punctate; in somatic embryos from both cultures, this signal was uniformly distributed. In embryos from suspension cultures, a punctate signal was detected outside the surface of cotyledon and hypocotyl. These data are discussed in light of current models for embryogenesis and the influence of culture conditions on cell wall structure.