In vitro plant regeneration from immature zygotic embryos and repetitive somatic embryogenesis in kohlrabi (Brassica oleracea var. gongylodes)

A simple and efficient protocol for direct somatic embryogenesis and plant regeneration of kohlrabi (Brassica oleracea var. gongylodes) was developed. Somatic embryos were induced from immature zygotic embryos at different developmental stages cultured on Murashige and Skoog medium supplemented with 0, 0.5, 1.0, or 1.5 mg/l 2,4-dichlorophenoxyacetic acid. Zygotic embryos at the early cotyledonary stage, which were cultured for 4 wk on plant growth regulator-free (PGR-free) medium, displayed the highest percentage of somatic embryogenesis (80.7%). Embryogenic tissue could be subcultured on the same medium for over 1 yr. Embryogenic lines derived from early cotyledonary stage zygotic embryos displayed the highest intensity of secondary embryogenesis (highest mean number of new somatic embryos per responsive somatic embryo explant). Histological analyses confirmed the direct origin of the secondary somatic embryos. Prolonged culturing of embryogenic tissue on PGR-free medium led to somatic embryo development into plantlets that were successfully acclimated in the greenhouse with a survival rate of 72.5%. Flow cytometry analysis showed no ploidy variation in 96.7% of the acclimated plants.     

植物激素对棉花体细胞胚胎发生的诱导及调节作用

选用11种激素研究了外源激素对棉花胚性愈伤组织增殖、胚胎发生和发育的调控作用。结果表明不同激素对棉花胚性愈伤组织增殖、胚胎发生与发育的影响不同。除2,4-D和BA对棉花胚性愈伤组织的增殖影响不大外,其他激素对棉花胚性愈伤组织的增殖均具有抑制作用,且具有一定的时间效应,同时还受基因型的影响。激素对棉花体细胞胚的形成和发育的影响极大,2,4-D既抑制了体细胞胚的形成,又抑制了体细胞胚的发育;TDZ的作用与2,4-D相似,显抑制了体细胞胚的形成,且诱导获得的体细胞胚均停留在球形胚阶段;GA也抑制了体细胞胚的形成,且不利于体细胞的成熟与萌发;BU-30对棉花体细胞胚形成与发育的影响不大。其他7类生长素类物质和细胞分裂素类物质对棉花体细胞胚的形成均具有促进作用,且依IBA、ABA、IAA、BA、KT、ZT、2iP序增强,其总胚数为对照的1．193—3．852倍;其中2iP的促进作用最大,可使产生的体细胞胚数提高2．852倍。     

Precociously germinating somatic embryos of Vitis vinifera have lower ABA and IAA levels than their germinating zygotic counterparts

Somatic embryos of Vitis vinifera (cv. Grenache noir) develop normally up to the torpedo stage, but they germinate precociously and form viable plantlets with very low frequency. Because a peak in abscisic acid (ABA) in mid‐embryogenesis could be one factor preventing precocious germination during normal seed development, we followed the development of ABA content concurrent with that of the somatic embryos. Additionally, we measured changes in indoleacetic acid (IAA) levels. We also compared the levels of both hormones during precocious germination of somatic embryos and during normal germination of their zygotic counterparts. Somatic embryos were able to accumulate ABA and IAA throughout their development but no peak in ABA concentration was detected during embryogenesis. This suggests that the switch from mid‐ to late‐embryogenesis is not triggered. Furthermore, during precocious germination, i.e. from the torpedo stage onwards, the concentrations of ABA and IAA in somatic embryos were much lower than during normal germination of zygotic embryos. Thus, it is likely that when precocious germination occurs, grape somatic embryos do not accumulate ABA and/or IAA in sufficient concentrations to support normal plantlet development. Therefore, for grape somatic embryos we propose that prevention of precocious germination, i.e. triggering late‐embryogenesis, is attainable by an ABA treatment followed by slow desiccation, as already shown for conifer somatic embryos. Our results also suggest that the role of ABA and IAA for improving normal germination after imposed quiescence should be investigated.     

Dynamics of biochemical and morphophysiological changes during zygotic embryogenesis in <Emphasis Type="Italic">Acca sellowiana</Emphasis> (Berg.) Burr.

Acca sellowiana (Berg.) Burr. is a native Myrtaceae from southern Brazil and Uruguay, now the subject of a domestication and breeding program. Biotechnological tools have been used to assist in this program. The establishment of a reliable protocol of somatic embryogenesis has been pursued, with a view to capturing and fixing genetic gains. The rationale behind this work relies on the fact that deepening comprehension of the general metabolism of zygotic embryogenesis may certainly improve the protocol for somatic embryogenesis. Thus, in the present work we studied the accumulation of protein, total sugars, starch, amino acids, polyamines (PAs), IAA and ABA, in different stages of A. sellowiana zygotic embryogenesis. Starch is the predominant storage compound during zygotic embryo development. Increased synthesis of amino acids in the cotyledonary stage, mainly of asparagine, was observed throughout development. Total free PAs showed increased synthesis, whereas total conjugated PAs were mainly observed in the early developmental stages. IAA decreased and ABA increased with the progression from early to late embryogenesis. Besides providing basic information on the morphophysiological and biochemical changes of zygotic embryogenesis, the results here obtained may provide adequate strategies towards the modulation of somatic embryogenesis in this species as well as in other woody angiosperms.     

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.     

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.     

Quantitative analysis of ultrastructural changes during zygotic and somatic embryogenesis in pearl millet (Pennisetum glaucum [L.] R. Br.)

Ultrastructural changes during zygotic and somatic embryogenesis in pearl millet (Pennisetum glaucum [L.] R. Br.) were quantified using morphometric techniques. The total area per cell profile and the cell volume percentage of the whole cell, endoplasmic reticulum (ER), Golgi bodies, mitochondria, nuclei, lipids, plastids, starch grains and vacuoles were measured and comparisons made between three zygotic and three somatic embryo developmental stages. All measurements were taken from scutellar or scutellar-derived cells. Zygotic embryogenesis was characterized by increases in cell size, lipids, plastids, starch, Golgi bodies, mitochondria and ER. Somatic embryogenesis was characterized by two phases of cell development: (1) the dedifferentiation of scutellar cells involving a reduction in cell and vacuole size and an increase in cell activity during somatic proembryoid formation and (2) the development of somatic embryos in which most cell organelle quantities returned to values found in late coleoptile or mature predesiccation zygotic stages. In summary, although their developmental pathways differed, the scutella of somatic embryos displayed cellular variations which were within the ranges observed for later stages of zygotic embryogenesis.     

Endogenous hormonal content and somatic embryogenic capacity of Corylus avellana L. cotyledons

Endogenous indole-3-acetic acid (IAA), abscisic acid (ABA) and cytokinins [zeatin (Z) zeatin riboside, dihydrozeatin, dihydrozeatin riboside, N⁶-isopentenyl adenine (iP) and N⁶-isopentenyladenine riboside] were evaluated in hazelnut (Corylus avellana L.) cotyledons of different developmental stage and genetic source for their somatic embryogenic capacity. There was an inverse correlation between the embryogenic potential of cotyledons and the degree of maturity of zygotic embryos, the first characteristic being associated with iP-type cytokinins and the second with Z-type cytokinins. Although the differences in total cytokinin, ABA and IAA contents between the cotyledons were small, the IAA/ABA and, mainly, the iP-type/Z-type cytokinin ratios were found to be two good indexes of the embryogenic competence of explants, suggesting that the endogenous hormonal balance is a very important factor defining the in vitro potential of hazelnut cotyledons. Received: 6 January 1997 / Revision received: 3 March 1997 / Accepted 1 April 1997     

A comparison between Theobroma cacao L. zygotic embryogenesis and somatic embryogenesis from floral explants

Summary In order to improve the late phases of Theobroma cacao L. embryogenesis from tissues of maternal origin, zygotic embryogenesis and somatic embryogenesis were compared, with respect to morphological, histological, and physiological parameters. Zygotic embryogenesis could be divided into three steps: (a) embryogenesis sensu stricto, (b) a growth period in which cotyledonary embryos reached their final dimensions, and (c) a maturation period in which embryos accumulated protein and starch reserves, dehydrated to a water content equal to 30%, and underwent a modification in soluble sugar composition. Monosaccharides and sucrose contents decreased to the benefit of the oligosaccharides raffinose and stachyose. The formation of somatic embryos by use of basic protocols was studied to define the limiting factors that could lie behind their poor development. Morphological abnormalities of somatic embryos, which represented 80% of the total population, were described. A histological study showed that somatic embryos lacked starch and protein reserves; moreover, their water content was much higher than that of their zygotic counterparts. Introducing a growth period into the culture protocol made for better embryo development. Adding sucrose and abscisic acid to the maturation medium was effective in increasing reserve synthesis and resulted in higher germination, conversion, and acclimatization rates.     

In vitro regeneration in Trifolium. 1. Direct somatic embryogenesis in T. rubens (L.)

The origin and development of zygotic and somatic embryos of Trifolium rubens L. was studied with the aid of paraffin sections and light microscopy. Zygotic embryos were collected, fixed and prepared daily from one to ten days after cross-pollination. Somatic embryos were obtained by plating petiole sections on modified L2 medium with 0.015 mgl^-1 picloram and 0.1 mgl^-1 6-BAP. Cultured petioles were collected and fixed daily from one to 25 days after plating. Two regions in the vascular bundle sheath of cultured petioles gave rise to callus. The first region was adjacent to the phloem fibers and produced friable callus. The second region gave rise to compact callus that was connected to the fascicular cambium. Somatic embryos originated from single cells in the cortex directly without intervening callus formation and from single cells in the friable callus. In addition, embryos arose from meristematic regions in compact callus. Many early stages of embryogenesis (one, two and four-celled stages) were observed in the cortex and friable callus. Zygotic embryogenesis in Trifolium differs from other legumes in that the suspensor is short and has a broad attachment. This arrangement was observed in zygotic embryos of T. rubens and in many somatic embryos. However, a continuum of somatic embryogenesis was observed where some young embryos had a Trifolium suspensor-like arrangement while others were attached to a long narrow suspensor-like structure more characteristic of Medicago.     

Changes in protein profiles associated with somatic embryogenesis in peanut

The somatic embryogenesis potential of zygotic embryo axes of peanut (Arachis hypogaea L. cv. DRG-12) at different stages of development was evaluated by culturing on MS medium with 18.1 μM 2,4-dichlorophenoxyacetic acid (2,4-D). A 100 % frequency with 18.3 somatic embryos per explant was observed from 4 mm long immature zygotic embryo axes collected 31 – 40 d after pollination. Medium supplemented with 16.6 μM picloram resulted in slow development of somatic embryos whereas in the presence of 21.5 μM α-naphthaleneacetic acid (NAA), the explants underwent maturation with induction of roots after 30 d. The changes in protein profiles in zygotic embryo axes at different stages of development correlated with their potential to form somatic embryos. Immature zygotic embryo axes exhibited high frequency somatic embryogenesis in the stage preceding abundant accumulation of 22 and 65 kDa proteins. The content of 22 and 65 kDa proteins decreased immediately after culture on medium fortified with 18.1 μM 2,4-D and increased again after 12 d of culture coinciding with the development of somatic embryos on the explants. The content of 22 and 65 kDa proteins was low at 15 d of culture on medium supplemented with 16.6 μM picloram possibly due to slow development of the somatic embryos on the explant. On maturation medium containing 21.5 μM NAA, a marked increase in the content of 22 and 65 kDa proteins in 15 d-old cultures was observed.     

Somatic embryogenesis in Alnus glutinosa (L.) Gaertn

Induction of somatic embryos and plant regeneration was demonstrated for the first time in Alnus glutinosa. Somatic embryos were initiated from zygotic embryos collected 1–3 weeks post-anthesis (WPA), i.e., when they were at globular or early cotyledonary stage and were 0.5–1 mm in length. Induction frequency (16.6 %) and the mean number of somatic embryos (4.5 embryos/explant) were highest after culture of zygotic embryos, collected at 3 WPA, on Murashige and Skoog medium (MS) supplemented with 0.9-μM 2,4-dichlorophenoxyacetic acid and 2.22-μM benzyladenine (BA). No embryogenic induction was observed on medium with BA alone. Initial somatic embryos differentiated indirectly from callus tissue formed at the surface of the zygotic embryos. Embryogenic competence was maintained by secondary embryogenesis, which was affected by explant type, plant growth regulators and genotype. Secondary embryogenesis was induced by culture of small groups of whole somatic embryos or isolated cotyledon explants on medium consisting of MS medium (half-strength macronutrients) supplemented with 0.44-μM BA. Histological study of isolated cotyledon explants revealed that secondary embryos developed directly from differentiated embryogenic tissue on the surface of cotyledons. Somatic embryos at successive stages of development, including cotyledonary-stage embryos with shoot and root meristems, were evident. For plantlet conversion, somatic embryos were transferred to maturation medium supplemented with 3 % maltose, followed by 6 weeks of culture in Woody Plant Medium supplemented with 0.44-μM BA and 0.46-μM Zeatin (Z). This novel protocol appears promising for mass propagation, conservation and genetic transformation of black alder.     

Spatio-temporal accumulation and activity of calcium-dependent protein kinases during embryogenesis, seed development, and germination in sandalwood

Western-blot analysis and protein kinase assays identified two Ca(2+)-dependent protein kinases (CDPKs) of 55 to 60 kD in soluble protein extracts of embryogenic cultures of sandalwood (Santalum album L.). However, these sandalwood CDPKs (swCDPKs) were absent in plantlets regenerated from somatic embryos. swCDPKs exhibited differential expression (monitored at the level of the protein) and activity in different developmental stages. Zygotic embryos, seedlings, and endosperm showed high accumulation of swCDPK, but the enzyme was not detected in the soluble proteins of shoots and flowers. swCDPK exhibited a temporal pattern of expression in endosperm, showing high accumulation and activity in mature fruit and germinating stages; the enzyme was localized strongly in the storage bodies of the endosperm cells. The study also reports for the first time to our knowledge a post-translational inhibition/inactivation of swCDPK in zygotic embryos during seed dormancy and early stages of germination. The temporal expression of swCDPK during somatic/zygotic embryogenesis, seed maturation, and germination suggests involvement of the enzyme in these developmental processes.     

Direct somatic embryogenesis and plantlet regeneration in oil palm

Direct embryogenesis without an intervening callus phase from cotyledonary nodes of germinated immature zygotic embryos of hybrids viz. DG1 and DG21 of oil palm (Elaeis guineensis) is reported here. Direct embryogenesis was achieved when the cotyledonary nodes of germinated immature zygotic embryos were cultured in dark for 8 weeks on Eeuwens media (Y3) supplemented with 40 μM 2,4-Dichlorophenoxyacetic acid (2,4-D), 40 μM α-Naphthaleneacetic acid (NAA), 10 μM 2,4,5-Trichorophenoxyacetic acid (2,4,5-T), 10 μM Thiadiazuron (TDZ), 10 μM 6-Benzyladenine (BA). The globular embryos with clear suspensor region appeared directly on the explants and multiplied. On subculture to fresh media, the other stages such as torpedo and heart shaped embryos were seen. On transfer to light in Y3 media containing BA (2 μM) and ABA (1 μM) they matured into complete plantlets. In 2% of the cultures secondary embryogenesis also was seen. Along with several other advantages of direct somatic embryogenesis this protocol opens up the prospect of genetic transformation in this important commercial crop.     

Somatic embryogenesis versus zygotic embryogenesis in Ensete superbum

In vitro regenerated corm with a shoot incubated on MS medium with modified combination of vitamins supplemented with 2 mg l^–1 2,4-D, 1.5 mg l^–1 BA and 1000 mg l^–1 L-glutamine formed an embryogenic callus. On transfer to a hormone free medium the callus turned black and formed whitish spherical nodules on the peripheral region from which mature embryos grew out in about 40 days. Histological preparations at successive stages in development confirmed the origin of somatic embryos initiated from single cells of the callus. Detailed analysis of the ontogeny of the somatic embryogenesis and zygotic embryogenesis has been done in the present study. Comparison of the ontogenetic stages of the somatic embryogenesis to that of zygotic embryogenesis has shown that the early segmentation of the embryo, the organization of the embryonic apex, formation of cotyledon and epicotyl, the morphology and shape of the zygotic and somatic embryos of E. superbum at successive stages show remarkable similarities in spite of the different environments in which they have developed and differen-tiated.     

Endogenous hormone levels during direct somatic embryogenesis in Medicago falcata

Endogenous indole-3-acetic acid, abscisic acid and cytokinins (zeatin, zeatin riboside, N-isopentenyladenine and N-isopentenyladenosine) were evaluated in initial explants (leaves) of in vitro propagated plants of alfalfa ( Medicago falcata L.) lines varying in embryogenic capacity and during the somatic embryogenesis process. Fast embryo-genic induction was correlated with high IAA and low ABA levels in the initial explants. No significant differences were observed in the cytokinin contents. Our results suggest that a certain hormone balance is necessary to allow the expression of the embryogenic potential. The consistent stages of the direct somatic embryogenesis are also characterized by changes in hormonal levels.     

Somatic embryogenesis and polyembryogenesis in Douglas-fir cell suspension cultures

A proliferating embryonal-suspensor mass (ESM) was initiated from immature embryos of Douglas-fir (Pseudotsuga menziesii (Mirb.) Franco), 4–5 weeks after fertilization, on modified MS medium with 2,4-dichlorophenoxyacetic acid (2,4-D), kinetin, and N⁶-benzylaminopurine (BAP). ESMs were maintained for over 6 months as cell suspension cultures on modified DCR media with low 2,4-D and with kinetin and BAP. The development of individual somatic embryos was initiated in suspension culture by the gradual reduction of plant growth regulators and by addition of abscisic acid. The early stages of zygotic embryogenesis in Douglas-fir are unique among conifers and cleavage polyembroyogenesis is unknown. In somatic embryogenesis, characteristic stages of zygotic embryonic development were recapitulated and complete embryos were recovered by inhibiting cleavage polyembryony with abscisic acid and culturing individual embryos without growth regulators. Histological examination confirmed bipolar organization of somatic embryos. While conversion is low, plantlets with multiple cotyledons have been transferred to soil and continue to grow with production of a new shoot.