Composition of embryogenic suspension cultures of Ipomoea batatas Poir. and production of individualized embryos

Embryogenic suspension cultures of Ipomoea batatas Poir. contain heterogeneous populations of discrete cellular units. In order to optimize embryo production, a study was conducted to identify the embryogenic fraction of such cultures. Suspension cultures were fractionated with sieves of 1000, 710, 500, 355, 250, 180, 125, 90 and 63m mesh openings and the composition of each fraction was determined. Cellular units larger than 355 m were primarily calli and made up 75% of the total mass of cultures in the stationary phase of growth. These calli were composed of embryogenic and non-embryogenic subunits, and 98% of the embryogenic subunits measured 355–1000 m. Calli and embryogenic calli subunits produced clusters of embryos at various stages of development upon transfer to liquid or solidified media without 2,4-D. The 125–355 m fraction of suspension cultures was composed of cell aggregates of which 20% were embryogenic. The embryogenic cell aggregates produced single globular embryos upon transfer to liquid media containing 0 or 1 M 2,4-D. The 63–125 m fraction of suspension cultures contained only 2% of embryogenic cell aggregates. It can be inferred from our results that the embryogenic fraction of cultures was essentially represented in calli, and that proliferation of the embryogenic fraction occurred through the separation of embryogenic cell aggregates from larger calli when cultures approached their stationary growth phase.Abbreviations and definitions cellular units single cells, cell aggregates, and calli - cell aggregates discrete associations of cells - calli association of cell aggregates - embryogenic cell aggregates yellow aggregates of cytoplasmic cells which have the potential to produce embryogenic calli or embryos [3] - non-embryogenic cell aggregates white aggregates of vacuolated cells [3] - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indoleacetic acid     

Catabolism of putrescine and spermidine in embryogenic and non-embryogenic callus lines of Picea abies

The oxidation of putrescine and spermidine were studied in embryogenic and nonembryogenic cell cultures of Picea abies (L.) Karst., with [1,4-¹⁴C]-putrescine and [1,4-¹⁴C]-spermidine as substrates. Activities of putrescine and spermidine oxidation varied at every developmental stage in both cultures. Putrescine was oxidized ca 5 times as fast both in embryogenic and non-embryogenic tissue as spermidine. Diamine and especially polyamine oxidase activity increased markedly in both tissues towards the end of the culturing. In maturing embryos and in ageing non-embryogenic cultures, enzyme activities were lower than in non-differentiated embryogenic calli. Aminoguanidine (1 m M ) inhibited di- and polyamine oxidation in non-embryogenic tissue by >60% and >30%, respectively. The pH optimum for putrescine oxidation was 8.0, but in non-embryogenic tissue spermidine was degraded even more actively at pH 5.0. [¹⁴C]-Spermidine was catabolized to [¹⁴C]-putrescine. Pyrroline dehydrogenase activity was observed in non-embryogenic spruce tissue cultures.     

The effects of glutamine of the maintenance of embryogenic cultures of Cryptomeria japonica

Summary Embryogenic tissues of sugi (Cryptomeria japonica) were induced on a modified Campbell and Durzan (CD) medium containing 1 μM 2,4-dichlorophenoxyacetic acid (2,4-D) and 600 mg l⁻¹ glutamine, and subcultured in the medium of the same composition for over 1 yr. This resulted in a mixed culture of embryogenic and non-embryogenic cells. When embryogenic cells were isolated and cultured independently, their capacity to form embryogenic aggregates was lost. Thus, the non-embryogenic cells present within a mixed culture system were essential to the formation of embryogenic aggregates. When embryogenic tissues were isolated and cultured independently on a high glutamine-containing (2400 mg l⁻¹) medium, dry weights and endogenous levels of glutamine increased, and the tissue could generate a large number of embryogenic aggregates. Amino acid analysis of embryogenic and non-embryogenic cells from the maintenance culture indicated a higher level of glutamine was present in the latter. The high endogenous level of glutamine in the non-embryogenic portion of mixed cell masses may be the supplier of glutamine for maintaining the embryogenic property of the tissues.     

The origin and development of somatic embryos following cryopreservation of an embryogenic suspension culture ofPicea sitchensis

Summary The development of somatic embryos in an embryogenic suspension culture ofPicea sitchensis was followed every day for two weeks after thawing from liquid nitrogen (LN₂). Only a few cells, primarily located at the periphery of the embryonic region of the embryos, survived cryopreservation in LN₂. Surviving cells were classified into two groups: embryogenic cells (EC) and non-embryogenic cells (NEC), based on their morphology and embryogenic competence. The dense cytoplasmic EC underwent organized growth and differentiation with first divisions occurring after 24 h, and embryo formation 6–8 days after thawing from LN₂. No evidence of asymmetrical divisions or free-nuclear stages was found during somatic embryo formation. NEC had less dense cytoplasm with numerous small vacuoles. One to five days after thawing the NEC became progressively more vacuolated and elongated. Histological examination revealed no mitotic activity in NEC, and six days after thawing NECs were seen as single cells or unorganized cell aggregates. Two weeks after thawing the appearance of the cryopreserved cultures was comparable to that of the untreated cultures.Abbreviations EC embryogenic cells - ECC embryogenic cell clusters - FDA fluorescein diacetate - GMA glycol methacrylate - LN₂ liquid nitrogen (–196°C) - NEC non-embryogenic cells     

Differences in compounds released by embryogenic and non-embryogenic suspension cultures of Euphorbia pulcherrima

Media from embryogenic and non-embryogenic cell suspension cultures were analysed for protein content, electrophoretic protein patterns, glycoproteins and activity of peroxidases and β-glucosidases in order to characterize the physiological status of the cultures. On a dry mass basis the amount of extracellular proteins per cell was greater in embryogenic suspensions than in non-embryogenic suspensions. Non-embryogenic suspensions contained unidentified slimy compounds which were not present inembryogenic cultures. The extracellular Concanavalin A-specific glycoproteins gave different isoelectric focussing patterns and thus enabled embryogenic and non-embryogenic cultures to be differentiated. The extracellular peroxidase activity per cell dry mass was far greater in embryogenic than in non-embryogenic cultures. The isoenzymes differed in number and composition of the anionic bands. β-glucosidases were found in the same range of activity in both culture types, but the time course of enzyme activity during cultivation was significantly different. In the embryogenic culture the activity was correlated with dry mass increase, whereas in the non-embryogenic suspension the activity reached maximum during the linear growth phase. Polyphenoloxidase which was recently recognized as an intracellular marker for embryogenic stages was not released into culture media. This revised version was published online in July 2006 with corrections to the Cover Date.     

Nutrient uptake and growth of an embryogenic and a non-embryogenic cell line of birch (Betula pendula Roth.) in suspension culture

The nutrient uptake of an embryogenic and of a non-embryogenic cell line of birch (Betula pendula Roth.) during cell growth and embryo production was studied in suspension culture. The embryogenic and non-embryogenic cell suspensions grew differently in the same medium. The non-embryogenic cell line started to grow without any lag period after the inoculation. It rapidly hydrolyzed sucrose in the medium to glucose and fructose and consumed the glucose as carbon source. The concentration of fructose in the medium decreased only after the depletion of glucose. The embryogenic cell line also rapidly hydrolyzed the sucrose to glucose and fructose, but the monosaccharides were consumed only after the embryos started to germinate after three weeks of culture. Both monosaccharides were then taken up at the same rate.     

Polyamines influence morphogenesis and caffeine biosynthesis in in vitro cultures of <Emphasis Type="Italic">Coffea canephora</Emphasis> P. ex Fr.

The influence of polyamines, polyamine inhibitors and ethylene inhibitors were tested in Coffea canephora for in vitro morphogenetic response and caffeine biosynthesis. Coffea canephora produced non-embryogenic and embryogenic calli. Somatic embryos were produced only from the embryogenic callus. Endogenous polyamine pools were estimated in these tissues. Somatic embryos were subjected to secondary embryogenesis under the influence of putrescine, silver nitrate and specific inhibitors of polyamine biosynthesis. Estimation of endogenous total polyamines revealed that embryogenic callus contained 11-fold more spermine and 3.3-fold higher spermidine when compared to non-embryogenic callus. Incorporation of polyamines resulted in 58% explant response for embryogenesis when compared to control with 42% response. Incorporation of silver nitrate resulted in 65% response for embryogenesis. Incorporation of polyamine biosynthetic pathway inhibitors DFMO and DFMA resulted in 83% reduction in embryogenic response with concomitant increase in caffeine levels by two-fold as compared to control. These results have clearly demonstrated that polyamines play a crucial role in embryogenesis and caffeine biosynthesis.     

Slow vacuolar channels of non-embryogenic and embryogenic cultures of winter wheat

Slowly activating vacuolar channels (SV), were examined in embryogenic and non-embryogenic cultures of winter wheat using a patch-clamp technique. Four different types of cultures were examined: embryogenic and non-embryogenic calli from embryos, embryogenic and non-embryogenic calli from inflorescences. In a cell-attached mode single SV channel events were recorded. Unitary conductance of single SV channels was between 37 pS and 48 pS and did not significantly depend on the kind of the culture, although it was a tendency that SV channels of embryogenic calli possessed lower unitary conductance than those of non-embryogenic. 2,4-D caused significant lowering of unitary conductance from 48±6 pS in the control culture of embryogenic embryos to 28±6 pS in vacuoles treated. The SV channel density was estimated as 0.34 μm⁻².     

Morphological and polyamine content changes in embryogenic and non-embryogenic callus of sugarcane

Differences in competence acquisition and subsequent embryo maturation in embryogenic and non-embryogenic callus of sugarcane var. SP79-1011 were evaluated using histomorphological analysis, growth curves, numbers of somatic embryos, and polyamine contents. Embryogenic callus was formed by cells with embryogenic characteristics such as a rounded shape, prominent nuclei, a high nucleus: cytoplasm ratio, small vacuoles and organized globular structures. However, non-embryogenic callus presented dispersed, elongated and vacuolated cells with a low nucleus: cytoplasm ratio; these characteristics did not allow for the development of somatic embryos even upon exposure to a maturation stimulus. These results suggest that non-embryogenic callus does not acquire embryogenic competence during induction and that maturation treatment is not sufficient to promote somatic embryo differentiation. The use of activated charcoal (AC; 1.5 g L^?1) resulted in a higher somatic embryo maturation rate in embryogenic callus but did not yield success in non-embryogenic callus. Embryogenic callus incubated with control (10 μM 2,4-dichlorophenoxyacetic acid) and maturation (1.5 g L^?1 AC) treatments for 28 days showed similar patterns of total free polyamines; these results differed from the results observed with non-embryogenic callus, suggesting that embryogenic callus already exhibits a characteristic pattern of endogenous polyamine levels. At 28 days of culture with maturation treatment, embryogenic callus exhibited significantly higher levels of free Spm than embryogenic callus incubated with control treatment and non-embryogenic callus incubated with both treatments. This result suggests that Spm could be important for the acquisition of embryogenic competence and somatic embryo maturation in sugarcane var. SP79-1011.     

Embryogenic and non-embryogenic cell lines of Daucus carota cloned from meristematic cell clusters: relation with cell ploidy determined by flow cytometry

The presence of totipotent and non-totipotent cells in embryogenic carrot cell suspension cultures was examined by cloning of cell microclusters. Forty clones were isolated and the distribution of their embryogenic potential was studied. Nonembryogenic, weakly and highly embryogenic cell lines were selected. After one year of subculture a second cloning round showed that the highly embryogenic and the non-embryogenic cell lines were homogenous and stable. A measurement of ploidy levels of clones by flow cytometry showed that the embryogenic clones were all diploid whereas the non-embryogenic were diploid or tetraploid. Hence, for our strain, there was a strict relationship between the tetraploid state and the inability to produce somatic embryos.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - PCV packed cell volume - MS Murashige and Skoog medium - MES 2(N-morpholino) ethanesulfonic acid - a.u. arbitrary units     

Acquisition of embryogenic potential in carrot cell-suspension cultures

Embryogenic suspension cultures of domesticated carrot (Daucus carota L.) are characterized by the presence of proembryogenic masses (PEMs) from which somatic embryos develop under conditions of low cell density in the absence of phytohormones. A culture system, referred to as starting cultures, was developed that allowed analysis of the emergence of PEMs in newly initiated hypocotyl-derived suspension cultures. Embryogenic potential, reflected by the number of FEMs present, slowly increased in starting cultures over a period of six weeks. Addition of excreted, high-molecular-weight, heat-labile cell factors from an established embryogenic culture considerably accelerated the acquisition of embryogenic potential in starting cultures. Analysis of [³⁵S]methionine-labeled proteins excreted into the medium revealed distinct changes concomitant with the acquisition of embryogenic potential in these cultures. Analysis of the pattern of gene expression by in-vitro translation of total cellular mRNA from starting cultures with different embryogenic potential and subsequent separation of the [³⁵S]methionine-labeled products by two-dimensional polyacrylamide gel electrophoresis demonstrated a small number of abundant in-vitro-translation products to be present in somatic embryos and in embryogenic cells but absent in nonembryogenic cells. Several other in-vitro-translation products were present in explants, non-embryogenic and embryogenic cells but were absent in somatic embryos. Hybridization of an embryoregulated complementary-DNA sequence, Dc3, to RNA extracted from starting cultures showed that the corresponding gene is expressed in somatic embryos and PEMs but not in non-embryogenic cells.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - cDNA complementary DNA - PAGE polyacrylamide gel electrophoresis - PEM proembryogenic mass     

Detection of an Embryogenic Cell Antigen in Carrot

Monoclonal antibodies were raised against proteins in a microsomalfraction from carrot embryogenic cells. The presence of a 31-kDaembryogenic cell antigen detected by one antibody (ID 11) wasdemonstrated in embryogenic cells but not in other plant materials,such as non-embryogenic cells, somatic embryos, crown gallsand hairy roots. The antigen was also present in organ segmentsthat carried somatic embryos having been induced by exposureto various stresses. In non-embryogenic cells, the antibodyrecognized a small amount of a 32-kDa antigen. Both the 31-and the 32-kDa antigens accumulated in carrot seeds during theirdevelopment and then disappeared after germination. (Received April 16, 1990; Accepted July 16, 1990)     

Proteins related with embryogenic potential in callus and cell suspensions of sugarcane (Saccharum sp.)

Summary Previous results have shown that some proteins secreted in the culture medium are involved with the formation of embryogenic cells and can modify somatic embryo differentiation. Undifferentiated cell suspensions grown in the presence of 13 μM 2,4-dichlorophenoxyacetic acid (2,4-D) and obtained from embryogenic and non-embryogenic callus were used to study these events in sugarcane plants (cv.PR-62258). The cell suspension growth curves were determined and soluble proteins were extracted from embryogenic and non-embryogenic callus and culture medium from cell suspensions. In embryogenic callus we detected 1.43 times more protein than in non-embryogenic callus and the electrophoretic protein patterns show specific polypeptides for both callus types. In embryogenic callus we detected a cluster of four polypeptides in the range of 38–44 kDa and another polypeptide of 23 kDa that were not observed in non-embryogenic callus. In nonembryogenic callus there is a 35-kDa polypeptide that was not detected in embryogenic callus. In the case of extracellular proteins, the medium from embryogenic cell suspensions contained four polypeptides of 41, 38, 34 and 28 kDa that were slightly detected in the medium from non-embryogenic cell cultures; we also detected a band at 15 kDa that could not be observed in the medium from non-embryogenic cell suspensions. These results suggest that the development of embryogenic callus and cell suspensions is related to the type and amount of intracellular proteins in the callus cells and to the secreted proteins from these cells into the medium.     

DNA demethylation and decrease on free polyamines is associated with the embryogenic capacity of Pinus nigra Arn. cell culture

Embryogenic cell lines initiated from immature zygotic embryos of Pinus nigra Arn. ssp. Austriaca were characterized in terms of macromorphological traits (colour, bipolar structures formation, germination ability) and their embryogenic potential was defined as high, medium or null. Quantification of global genomic DNA methylation revealed the existence of specific DNA methylation levels for the determinated embryogenic potentials. The line considered as effectively embryogenic, i.e., with the ability of develop the whole embryogenic program and producing plants, showed the lowest methylation levels. There was also proved the existence of an inverse relationship between total contents of free PAs and embryogenic potential, being the highest contents of free putrescine and spermidine in the non-embryogenic line and the lowest in the effectively embryogenic one. Relationships among DNA methylation levels, profiles of free individual polyamine contents and embryogenic potentials based on the ability to produce well-formed somatic embryos with effective plant conversion are discussed.     

Arabinogalactan proteins are essential in somatic embryogenesis of Daucus carota L.

Daucus carota L. cell lines secrete a characteristic set of arabinogalactan proteins (AGPs) into the medium. The composition of this set of AGPs changes with the age of the culture, as can be determined by crossed electrophoresis with the specific AGP-binding agent, β-glucosyl Yariv reagent. Addition of AGPs isolated from the medium of a non-embryogenic cell line to an expiant culture initiated the development of the culture to a non-embryogenic cell line. Without addition of AGPs or with addition of carrot-seed AGPs an embryogenic cell line was established. Three-month-old embryogenic cell lines usually contain less than 30% of dense, highly cytoplasmic cells, i.e. the embryogenic cells, but when carrot-seed AGPs were added this percentage increased to 80%. Addition of carrot-seed AGPs to a two-year-old, non-embryogenic cell line resulted in the re-induction of embryogenic potential. These results show that specific AGPs are essential in somatic embryogenesis and are able to direct development of cells.     

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.     

Biochemical differences between carrot inbreds differing in plant regeneration potential

Cultures derived from domestic carrot (Daucus carota L.) inbreds were found to vary with respect to regeneration potential as measured by the production of somatic embryos in suspension cultures. A number of biochemical parameters previously reported to distinguish embryogenic from non-embryogenic cultures of other species were measured in these carrot cell lines. Ethylene production was found to be inversely related to regeneration potential. The cell line producing the greatest number of somatic embryos exhibited the lowest rate of ethylene biosynthesis, even when grown on 2, 4-D-containing maintenance medium. A specific isozyme of acid phosphatase was associated with embryogenic calli. Proteins visualized by SDS-PAGE did not discriminate between embryo-forming and proliferating calli in all inbreds.     

Differences in invertase activity in embryogenic and non-embryogenic calli from Medicago arborea

The different invertase activities in embryogenic and non-embryogenic calli induced from explants (cotyledons, petioles, hypocotyls and leaves) obtained from Medicago arborea L. subsp. arborea seedlings were evaluated. Total invertase activity was lower in the calli with the greatest embryogenic capacity. The greatest fraction of this activity corresponded to soluble invertase. Wall-bound invertase showed maximum activity during the first two months of culture and the highest activities of this type were found in non-embryogenic calli. Extracellular invertase formed the smallest fraction of the total invertase activity evaluated. Acid and alkaline invertase activities were found in all calli but differences were detected between the embryogenic and non-embryogenic calli. In the former, the activity of both types of invertase exhibited a similar type of behaviour but different from that observed in the non-embryogenic calli. The calli with the greatest embryogenic capacity had very low levels of acid invertase and very high levels of the alkaline form. Soluble invertase – both acid and alkaline – accounted for the highest fraction after the first two months of culture and was present in lower amounts in the embryogenic than in the non-embryogenic calli. Regarding bound invertase, the highest production was seen to correspond to acid invertase. The extracellular invertase evaluated corresponded to the acid form since the alkaline extracellular invertase did not show any physiologically significant activity.     

Isolation and Characterization of a cDNA Encoded an Embryogenic Cell Protein 63 Related to Embryogenesis from Carrot

cDNA library with about 6.0 x 108 plaques per μg phage from carrot ( Daucus carota L. cv. Hammaki) torpedo-shaped embryos was constructed by a eDNA cloning system (λgtl0). A fulllength cDNA for embryogenic cell protein 63 (ECP63), an embryogenic cell protein from carrot with a relative molecular weight of 63 000, was isolated from a eDNA library using PCR-amplified DNA as a probe. The nucleotide sequence of ECP63 cDNA was 1 989 bp in length. The cDNA encoded a polypeptide of 569 amino acids, and the calculated molecular weight of this pelypeptide was 62 000. The Northern blot analysis using labeled full-length ECP63 cDNA as a probe showed that the gene for ECP63 was expressed in embryogenic cells, globular, heart-, and torpedo-shaped embryos, but not in seedlings and non-embryogenic cells.     

Arabinogalactan proteins in embryogenic and non-embryogenic callus cultures of Euphorbia pulcherrima

The arabinogalactan protein (AGP) fractions of embryogenic and non-embryogenic callus lines of Euphorbia pulcherrima Willd. ex. Klotzsch were analysed over a cultivation period of 9 weeks using the β -glucosyl Yariv reagent and an anti-AGP antibody (LM2). The amount of AGPs detected with the Yariv reagent increased in embryogenic cultures during the development of somatic embryos. The embryogenic and non-embryogenic callus contained different sets of AGPs characterized with the Yariv reagent and the LM2 monoclonal antibody. AGPs recognized by LM2 are localized primarily in the protodermal cells of globular somatic embryos. The development of somatic embryos of E. pulcherrima appears to be associated with the presence of particular AGPs.