Callusogenesis and somatic embryogenesis induction in hybrid embryos from the seeds of Pinus sibirica

The results of long-term work on the induction of somatic embryogenesis in Siberian pine (Pinus sibirica Du Tour) growing in a natural stand of trees and in clone grafting plantation located in the Western Sayan are shown. Controlled pollination of the clones of Siberian pine had a positive influence on the state of callus cultures. The cytological analysis of embryonal-suspensor mass made it possible to identify embryological structures morphologically close to zygotic embryos at early developmental stages; as a result, the callus tissue was recognized embryogenic. We revealed donor plants (clones), whose zygotic embryos in vitro can serve as a source of embryogenic callus tissue.     

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.     

Comparative protein accumulation patterns in soybean somatic and zygotic embryos

Summary The relative maturity and competence of somatic embryos is often estimated on the basis of their morphologic similarity to various stages of immature zygotic embryo development. Morphologic abnormalities noted in soybean [Glycine max (L.) Merr.] somatic embryos are similar to those observed in zygotic embryos maturing in vitro and may reflect common interruptions of normal developmental processes. We provide here a more objective means of assessing the point(s) at which cultured embryos deviate from the normal embryogenical pathway by comparing the accumulation of the embryo-specific marker proteins (11S and 7S storage globulins, soybean agglutinin, and seed lipoxygenase) between somatic and immature zygotic embryos maturing in culture to zygotic embryos maturingin planta. Immature (heart-stage) soybean (cv. ‘McCall’) zygotic embryos were removed from the testa and cultured for 5, 15, or 45 days in nien modified Linsmaer-Skoog salts, 5% sucrose liquid medium. Somatic embryos were induced from immature cotyledon explants on a medium containing either naphthalene acetic acid or 2,4 dichlorophenoxyacetic acid (10 mg·liter⁻¹). The measured level of the marker proteins present in cultured embryos never exceeded those observed in mature soybean seeds. During the culture period, immature zygotic embryos accumulated significant levels of all marker proteins except a 29 kDa soybean agglutinin associated with the final stages of seed maturationin planta. Somatic embryos of all morphologic classes exhibited similar levels of the marker proteins suggesting that morphology may not accurately represent the developmental state of the culture-derived embryos. Somatic embryos induced on naphthalene acetic acid-containing medium accumulated detectable levels of all maturation-specific marker proteins except the 7S β and 29-kD soybean agglutinin antigen and seemed similar in most respects to the cultured zygotic embryos. Embryos induced on 2,4-dichlorophenoxyacetic acid accumulated none of the mature 7S or 11S storage globulin subunits nor any soybean agglutinin antigen, and yet the synthesis of 7S and 11S precursor polypeptides was similar in both naphthalene acetic acid-and 2,4-dichlorophenoxyacetic acid-induced somatic embryos. These observations are consistent with the view that embryos induced on high 2,4-dichlorophenoxyacetic are arrested at a relatively earlier developmental stage than naphthalene acetic acid-induced embryos of similar morphology and may indicate that some external signal (e.g., abscisic acid or desiccation or both) is necessary for the transition to the late maturation stage of seed ontogeny.     

Somatic embryogenesis and plant regeneration in different organs ofEuterpe edulis mart. (Palmae): Control and structural features

Somatic embryogenesis and further plant regeneration were observed using zygotic embryos, young inflorescences and young leaves ofEuterpe edulis (Palmae) as explants. Both for the cultures of zygotic embryos and inflorescences, activated charcoal in the medium was essential for the establishment of viable cultures. Embryogenesis was induced by using a gelled basal medium with MS or Euwens salts supplemented by high 2, 4-D levels (50–100 mg L⁻¹). The embryogenic process was direct without a callus stage. For further development, cultures with globular or post-globular embryos were transferred to the basal medium with 2-iP (2.5 mg L⁻¹) and NAA (0.1 mg L⁻¹). To convert embryos to plantlets, cultures were transferred to a third medium in which sucrose and salts were reduced to the half-strenght of the basal medium, without growth regulators. In the case of liquid medium, with either 2, 4-D or NAA (10–20 mg L⁻¹). The developmental stage of each explant was critical for the induction of embryogenesis. The histological study of embryogenic cultures revealed that in the case of zygotic embryos, somatic embryos arise directly from the surface of the cotyledonar node, or from subepidermal tissues. In the inflorescences, a pro-embryogenic tissue is formed at the floral primordium region; in the leaves, the first morphogenic event is cell proliferation in the vascular parenchyma.     

Investigations of Laticifer Differentiation in Tissue Cultures Derived from Asclepias syriaca L.

Callus cultures of Asclepias syriaca were established from stemexplants and grown in tissue culture. The culture medium onwhich the callus was grown was modified to produce either planfletsof superficial origin on the callus or embryoids which wereanalyzed to determine whether laticifers differentiated in thesestructures. Mature zygotic embryos and adult plants of A. syriacanormally possess a well-developed network of intrusively-growingnon-articulated branched laticifers that arise only once duringplant develop ment from initials differentiated in the youngheart stage embryo. Embryoids were derived from two differentculture media. These embryoids were observed to lack laticifers,although they were similar in their morphology in other respectsto zygotic embryos. Plantlets of superficial origin were formedon each of the media employed in this study. These plantletswere observed to possess laticifers that resemble those in normalshoots. Embryoids and induced shoots represent experimentalsystems in which it may be possible to control for the firsttime the differentiation of the laticifer as a cell type instructures similar to those present in the normal plant.     

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     

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     

Large impact of the apoplast on somatic embryogenesis in <Emphasis Type="Italic">Cyclamen persicum</Emphasis> offers possibilities for improved developmental control <Emphasis Type="Italic">in vitro</Emphasis>

Background  

Clonal propagation is highly desired especially for valuable horticultural crops. The method with the potentially highest multiplication rate is regeneration via somatic embryogenesis. However, this mode of propagation is often hampered by the occurrence of developmental aberrations and non-embryogenic callus. Therefore, the developmental process of somatic embryogenesis was analysed in the ornamental crop Cyclamen persicum by expression profiling, comparing different developmental stages of embryogenic cell cultures, zygotic vs. somatic embryos and embryogenic vs. non-embryogenic cell cultures.     

Morphology and Anatomy of Pisum Sativum Somatic Embryos

The morphological and anatomical aspects of direct and indirect somatic embryogenesis in pea were described. Direct embryos were induced from shoot apical meristems of 3 to 5-d-old pea seedlings, embryogenic callus originated from immature pea zygotic embryos or shoot apices. Auxin (picloram, 2,4-dichlorophenoxyacetic acid) was necessary to induce somatic embryos. The developmental stages typical for pea zygotic embryos were detected. Globular and heartshaped somatic embryos were morphologically similar to their zygotic counterparts; in contrast, torpedo and cotyledonary somatic embryos displayed great morphological variation, which affected mainly cotyledons (size, shape, number). Based on anatomical sections, possible ways of somatic embryo formation and localization of initiation sites within primary explant tissue have been proposed. The multicellular origin of somatic embryos is supposed in both systems of pea somatic embryogenesis under investigation.     

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.     

Evidence of somatic embryogenesis from root tip explants of the rattan Calamus manan

Summary Somatic embryogenesis of Calamus manan, a single-stemmed rattan species, in tissue culture was scientifically demonstrated for the first time. Root tips of in vitro plantlets produced friable callus when the explants were cultivated for several mo. on a Murashige and Skoog induction medium containing 7.5 mg Picloram per l (31.1 μM). Histological analyses established the presence of proembryos within the callus which differentiated subsequently into somatic embryos using the same culture medium. Histological examination revealed that these somatic embryos completely lacked starch and protein reserves, which did not prevent them, however, from germinating, and showing bipolar development. These somatic embryos further developed into young plants, similarly to zygotic 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.     

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)     

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     

Somatic embryogenesis from pea embryos and shoot apices

Conditions were defined for plant regeneration via somatic embryogenesis in pea, using explants from immature zygotic embryos or from shoot apices. For the induction of somatic embryos, an auxin (picloram or 2,4-dichlorophenoxyacetic acid) was required. Embryogenic callus originated from embryonic axis tissue of immature embryos and from the axillary-bud region and the plumula of shoot apices. A clear effect of embryo size on somatic embryogenesis was shown. There were differences in frequency of somatic embryogenesis among the five genotypes used in the study. Additions of BA to auxin-containing medium reduced embryo production. Histological examinations confirmed the embryogenic nature of the immature embryo cultures and revealed that somatic embryos originated from the meristematic areas near the callus surface.Abbreviations BA benzyladenine - 2,4-D 2,4-dichlorophenoxyacetic acid - NAA naphthaleneacetic acid - picloram 4-amino-3,5,6-trichloropicolinic acid     

Induction of green ash embryogenic cultures with potential for scalable somatic embryo production using suspension culture

Key message

The developmental sequences of zygotic embryos of green ash collected from the same tree were widely asynchronous and an intermediate developmental stage was the best explant for inducing somatic embryogenesis.

Abstract

All North American ash (Fraxinus) species are under threat of extirpation from their native ranges by the emerald ash borer (EAB; Agrilus planipennis), an exotic wood-boring beetle that has already destroyed millions of ash trees in 15 U.S. states and Canada. We tested treatments aimed at initiating embryogenic cultures from seeds of green ash (F. pennsylvanica), with the long-term goal of using these cultures to aid in research to generate EAB-resistant ash trees for restoration. In preparation for somatic embryogenesis induction experiments, we first defined specific stage(s) of green ash zygotic embryo development using time-tracing sampling by collecting samaras of two green ash trees from May to August in 2012. Seed development was divided into seven stages according to both seed and embryo size, and the numbers of seeds and embryos in each stage were recorded for each collection date. Surprisingly, a broad range of seed and embryo developmental stages could be found in samaras collected from the same tree on the same date, in particular for the later collection dates. Using this information, single-date collections of seeds with embryos at various stages of development were made from three local Athens, GA green ash trees and one horticultural cultivar and cultured on two different basal media with different combinations of plant growth regulators (PGRs). A low percentage of zygotic embryo explants at an intermediate stage of development from all three local source trees produced proembryogenic masses (PEMs) when cultured on a modified Woody Plant Medium with 2,4-dichlorophenoxyacetic acid and benzyladenine. Although embryogenesis was also induced from explants of the horticultural cultivar, these cultures failed to produce germinable somatic embryos. Transfer of PEMs to PGR-free medium resulted in highly dense production of somatic embryos, some of which were germinated to produce somatic seedlings.     

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     

Developmental anatomy and ultrastructure of early somatic embryos in European black pine (Pinus nigra Arn.)

Summary Embryogenic callus cultures of European black pine (Pinus nigra Arn.) were established on megagametophytes containing zygotic embryos in early developmental stage. In addition to many elongated cells and disorganized growing clumps they contained early somatic embryos at various stages of development. At all stages of embryogenesis the embryos were organized as bipolar structures. Cell pairs composed of one isodiametric cell with dense cytoplasm and a second large vacuolated cell were the simplest bipolar system. The vacuolated cell underwent senescence. The cytoplasm-rich cell and its derivates divided transversally, resulting in several cytoplasmic cells arranged in row. An early embryonal cylindrical mass was formed by longitudinal division of the cells in a filament. Proximally localized cells in the early embryonal mass became vacuolized and elongated gradually giving rise to the secondary suspensor. Distal cells remained cytoplasmic in character and formed an embryonal mass along the axis of long early somatic embryos. Differences in the proportion of organelles and heterochromatin clumps, thickness of cell walls and number of plasmodesmata between cells at various stages of early somatic embryogenesis were described.     

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     

Starch deposition and amylase accumulation during somatic embryogenesis in bamboo (Dendrocalamus hamiltonii)

In monocots, the zygotic embryo is protected and nourished by an endosperm. In the present study starch deposition and amylase accumulation was noticed during somatic embryogenesis in stem callus of a bamboo, Dendrocalamus hamiltonii. SEM studies revealed that starch grains were clearly visible in the scutellum during the maturation stage of the somatic embryo. As the somatic embryo developed further, the scutellum got reduced with corresponding increase in amylase. The amylase activity was tested periodically at different developmental stages of embryos. The role of scutellum in somatic embryos for starch deposition and amylase accumulation is discussed.