Histological analysis of direct somatic embryogenesis in <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> (L.) Heynh

In Arabidopsis the in vitro culture of immature zygotic embryos (IZEs) at a late stage of development, on the solid medium containing synthetic auxin, leads to formation of somatic embryos via direct somatic embryogenesis (DSE). The presented results provide evidence that in IZE cells competent for DSE are located in the protodermis and subprotodermis of the adaxial side of cotyledons and somatic embryos displayed a single- or multicellular origin. Transgenic Arabidopsis lines expressing the GUS reporter gene, driven by the DR5 and LEC2 promoters, were used to analyse the distribution of auxin to mark embryogenic cells in cultured explants and develop somatic embryos. The analysis showed that at the start of the culture auxin was accumulated in all explant tissues, but from the fourth day onwards its location shifted to the protodermis and subprotodermis of the explant cotyledons. In globular somatic embryos auxin was detected in all cells, with a higher concentration in the protodermis, and in the heart stage its activity was mainly displayed in the shoot, root pole and cotyledon primordia. The embryogenic nature of dividing protodermal and subprotodermal cells accumulating auxin was confirmed by high expression of promoter activity of LEC2 in these cells. Analysis of symplasmic tracer (CFDA) distribution indicated symplasmic isolation between tissues engaged in DSE and other parts of an explant. Symplasmic isolation of somatic embryos from the explant was also detected.     

Increased symplasmic permeability in barley root epidermal cells correlates with defects in root hair development

It is well known that the process of plant cell differentiation depends on the symplasmic isolation of cells. Before starting the differentiation programme, the individual cell or group of cells should restrict symplasmic communication with neighbouring cells. We tested the symplasmic communication between epidermal cells in the different root zones of parental barley plants Hordeum vulgare L., cv. ‘Karat’ with normal root hair development, and two root hairless mutants (rhl1.a and rhl1.b). The results clearly show that symplasmic communication was limited during root hair differentiation in the parental variety, whereas in both root hairless mutants epidermal cells were still symplasmically connected in the corresponding root zone. This paper is the first report on the role of symplasmic isolation in barley root cell differentiation, and additionally shows that a disturbance in the restriction of symplasmic communication is present in root hairless mutants.     

Histological Observations on Initiation and Morphogenesis in Immature and Mature Embryo Derived Callus of Barley (Hordeum vulgare L.)

Callus was induced from immature and mature embryos of barley(cv. Haruna Nijo) on Murashige and Skoog medium containing 2mg l^-1 2,4-D and 5 mg l^-1 picloram, respectively. Paraffin sections(10 µm thick) were prepared for histology during callusinitiation and plant regeneration. Meristems were regeneratedfrom nodular compact callus (NC) derived from scutellar epidermisin immature embryos, whereas they were regenerated from NC derivedfrom epidermal cells of leaf or coleoptile bases in mature embryos.Regardless of the explant source, regeneration was predominantlythrough organogenesis, although regeneration through somaticembryogenesis infrequently occurred. Thus, the callus inducedfrom immature and mature embryos of barley was regarded as 'nodularcompact' rather than 'embryogenic'.Copyright 1995, 1999 AcademicPress Barley, callus, Hordeum vulgare, histology, immature embryo, mature embryo, regeneration     

Determination of endogenous abscisic acid levels in immature cereal embryos during in vitro culture

Levels of endogenous abscisic acid (ABA) in immature wheat (Triticum aestivum cv. Timmo) and barley (Hordeum vulgare cv. Golden Promise) embryos have been determined by enzyme-linked immunosorbent assay. Embryos of both cereal species showed an increase in ABA content during development on the parent plant. Immature embryos were excised and cultured in vitro on nutrient media that led to precocious germination or on media containing 9% (w/v) mannitol that maintained their developmental arrest. Barley and wheat embryos responded to these culture conditions in an identical manner with respect to changes in morphology, fresh weight, protein and lectin content. However, in complete contrast, the ABA content of barley embryos increased by an order of magnitude during culture on mannitol, whereas that of wheat embryos showed no significant change. The results are discussed within the context of the role of ABA in the regulation of embryo development.Abbreviations ABA abscisic acid - BGA barley-germ agglutinin - dpa days post anthesis - ELISA enzyme-linked immunosorbent assay - GC-MS gas chromatography-mass spectrometry - WGA wheat-germ agglutinin     

In vitro development and cell allocation of porcine blastocysts derived by aggregation of in vitro fertilized embryos

In pigs, the morphology and cell number of in vitro-produced blastocysts are inferior to those of their in vivo counterparts. The objective of this study was to increase developmental competence and to gain an understanding of cell allocation in blastocysts derived from the aggregation of four-cell stage porcine embryos produced in vitro. After removal of the zona pellucida, two (2x) and three (3x) four-cell stage embryos were aggregated by co-culturing them in aggregation plates. Five days after aggregation, the developmental ability and the number of cells in the aggregated embryos were determined. The percentage of blastocysts was higher (P < 0.05) in both the 2x and 3x aggregated embryos (66.6% and 72.0%, respectively) compared to that of the 1x embryos and the intact controls (43.1% and 36.4%, respectively). The total cell number of blastocysts also increased in aggregated embryos compared to that of intact controls (2.6-fold for 2x and 3.4-fold for 3x) (P < 0.05). The cells of two differentially stained embryos were started to mix at 72 hr after aggregation. In vitro-fertilized porcine aggregates (2x) were developed to blastocyst with a random distribution of cells from each embryo. The mRNA levels for the oct-4, bcl-xL and connexin 43 genes were higher (P < 0.05) and bak gene were lower (P < 0.05) in both the 2x and 3x aggregated embryos than the intact controls. Therefore, the aggregation of the four-cell stage embryos could be used to improve the quality of porcine preimplantation stage embryos produced in vitro.     

An analysis of seed development in Pisum sativum XVIII. The isolation of mutants defective in embryo development

Following EMS mutagenesis of pea (Pisum sativum L.) seed, ninemutants have been isolated whose embryos are affected in theirdevelopment, being defective either in organogenesis or in celldifferentiation. Studies of their morphology at the whole organlevel and their histology indicated at least four groups: thosewith single cotyledons (representing at least three loci), twoblocked at the early cotyledonary stage, one with abnormal rootdevelopment and two with cellular defects. Genetic analysisindicated the mutants were behaving as monogenic recessive mutations.These mutants represent the first of their type for legumesand should prove especially useful, therefore, for examiningthose aspects of development characteristic of these species. Key words: Cellular development, cotyledon, embryogenesis, morphogenesis, mutagenesis     

IMAGE ANALYSIS OF CHROMATIN IN CELLS OF PREIMPLANTATION MOUSE EMBRYOS

Mouse two-celled embryos and blastulae were Feulgen stained and the DNA content of their nuclei was measured with an integrating microdensitometer. The cells considered on the basis of their nuclear DNA content to be in G₁, S, and G₂ phases of the cell cycle were selected and their total chromatin area and chromatin areas at different gray levels were measured by the image analyzing computer, Quantimet. The measurements were aimed at quantitation of several features of the chromatin morphology of cells in different functional states. The total area of chromatin was found to increase, and the mean density of chromatin to decrease, from the G₁ to the G₂ phase of the cell cycle in both two-celled embryos and blastulae. The area of chromatin decreased, and the mean density of chromatin increased, as embryos developed from two-celled to blastula stage. It was concluded that nuclear morphology in preimplantation mouse embryos depends on both the phase of the cell cycle and the stage of development. The method of image analysis described was found to be useful for quantitation of changes in chromatin morphology.     

The influence of culture and transport on pretransfer development and posttransfer survival of sheep embryos

Sheep embryos were collected under sterile conditions in Dulbecco's Phosphate Buffered Saline (DPBS) + 10% Fetal Calf Serum (FCS) and cultured in DPBS + 20% FCS at 37 degrees C. They were classified according to their stage of development, from the lowest stage, 13 (less than a morula) to the highest stage, 20 (hatched blastocyst). Morphology was graded from 1 for excellent to 5 for degenerated. All embryos placed in the experiment had a development stage classification of 14 (morula) or higher and morphology classification of 1 to 3. Thirty-four embryos cultured in the laboratory for 24 h (Treatment B) and 32 embryos handled the same way except that they were transported for approximately 12 h (Treatment C) increased an average of 1.8 development classification scores and decreased -0.84 and -0.58 morphology classification scores for the two treatments, respectively. Twelve embryos in Treatment D (the same as Treatment C except that they were cultured in the laboratory for an additional 24 h) progressed 2.2 development classification scores during 48 h culture and did not change (-0.08) in the morphology classification score. The development estimates related to length of culture time but showed no affect of transport. Seventy-five percent of 20 embryos transferred in Treatment C and 42% of 12 embryos in Treatment D survived to parturition, demonstrating that the procedures used to transport and culture them for 24 and 48 h, respectively, maintained embryos capable of post transfer survival. Forty-one percent of the 22 embryos transferred in Treatment A (noncultured) and 20% of 20 embryos in Treatment B survived.     

Induction of alpha-amylase inhibitor synthesis in barley embryos and young seedlings by abscisic Acid and dehydration stress

An endogenous α-amylase inhibitor was found to be synthesized in embryos of developing barley grain (Hordeum vulgare cv Bonanza). Accumulation of this protein occurred late in development (stage IV), at the same time that endogenous abscisic acid (ABA) showed a large increase. The inhibitor could be induced up to 23-fold in isolated immature embryos (stage III) by culture in ABA. Precocious germination was also blocked in stage III embryos by ABA. Dehydration stress on the isolated immature embryos also induced higher levels of the inhibitor and ABA. An even greater response to dehydration stress was observed in young seedlings, where inhibitor content increased 20-fold and ABA increased 80-fold during water stress. The high degree of correlation between ABA and inhibitor contents in in situ embryos, dehydrated embryos and young seedlings, as well as the increase in inhibitor caused by exogenously applied ABA to isolated embryos, suggests that increased α-amylase inhibitor synthesis in response to dehydration stress is mediated by ABA.     

Acceleration of amphibian embryonic melanophore development by melanophore-stimulating hormone, N6,O2-dibutyryl adenosine 3',5'-monophosphate and theophylline.

Stage 14 (Gallien and Durocher, 1957)Pleurodeles waltlii embryos were treated with α- or β-melanophore-stimulating hormone (MSH), ACTH, dbc-AMP, c-AMP plus theophylline, theophylline, 5′-AMP, or 2′,3′-AMP. The development of melanophores was accelerated (appearing two stages earlier than in control embryos) by α- or β-MSH, ACTH, dbc-AMP, c-AMP plus theophylline, or theophylline alone. By the time embryos developed to stage 28, the control and treated embryos were indistinguishable in the number, distribution, and general morphology of their melanophores, suggesting these agents do not induce melanophore formation or mitosis. Cyclic AMP alone, 5′-AMP or 2′,3′-AMP were ineffective. Accelerated cytodifferentiation apparently requires preinduction by the invaginating chordo-mesoderm during stages 13 and 14 as presumptive neural plate explants cultured before chordo-mesoderm induction (stage 8) failed to produce melanophores with or without α-MSH or dbc-AMP. Explants from stage 14 embryos treated with α-MSH or dbc-AMP developed the same number of melanophores at the approximate time that treated whole embryos developed melanophores. Whole embryo experiments involving the faster developing embryos of Xenopus laevis were similar to those described for P. waltlii.     

Occurrence of a New Lipoxygenase Isoenzyme in Germinating Barley Embryos

Partially purified preparations of lipoxygenase from the germinating barley embryos converted linoleic acid to 9- and 13-hydroperoxy linoleic acids in the ratio of approximately 3:1, while the similar preparations from the ungerminated embryos converted linoleic acid mainly to 9-hydroperoxy linoleic acid.

Isoelectric focusing of the partially purified preparations of the germinating embryos revealed the presence of the two lipoxygenase active peaks, having isoelectric point at pH 4.9 and 6.6, respectively. The former peak (barley lipoxygenase-1) was identical to lipoxygenase of the ungerminated embryos, but the latter peak (barley lipoxygenase-2) was found only in the germinating embryos. The newly found isoenzyme, barley lipoxygenase-2, converted linoleic acid mainly to 13-hydroperoxy linoleic acid, and could oxidize esterified derivatives of linoleic acid (methyl linoleate and trilinolein) much strongly than barley lipoxygenase-1.     

Inhibition of the synthesis of glycosphingolipid by a ceramide analogue (PPMP) in the gastrulation of Bufo arenarum

In the present study the role of glycosphingolipids (GSL) in amphibian development was investigated. We analysed the de novo synthesis of neutral GSL and gangliosides through the initial stages of Bufo arenarum embryo development and their participation during gastrulation using 1-phenyl-2-palmitoyl-3-morpholino-1-propanol (PPMP), a potent inhibitor of glucosylceramide synthase. Ganglioside synthesis began at the blastula stage and reached a maximum during gastrulation (stages 10-12) while neutral GSL synthesis showed a slight gradual increase, the former being quantitatively more significant than the latter. Ganglioside synthesis was reduced by 90% while neutral GSL synthesis was inhibited by 65% when embryos at blastula stage were cultured for 24 h in 20 microM PPMP. The depletion of GSL from amphibian embryos induced an abnormal gastrulation in a dose-dependent manner. We found that PPMP had a pronounced effect on development since no embryos exhibited normal gastrulation; their developmental rate either slowed down or, more often, became totally arrested. Morphological analysis of arrested embryos revealed inhibition of the gastrulation morphogenetic movements. Analysis of mesodermal cell morphology in those embryos showed a severe decrease in the number and complexity of cellular extensions such as filopodia and lamellipodia. Mesodermal cells isolated from PPMP-treated embryos had very low adhesion percentages. Our results suggest that glycosphingolipids participate in Bufo arenarum gastrulation, probably through their involvement in cell adhesion events.     

Embryo sex selection by a rat male-specific antibody and the cytogenetic and developmental confirmation in cattle embryos

Embryos of mouse, rabbit, goat, sheep, and cattle were separated into 2 groups on the basis of their morphology when incubated with a male-specific antibody (qualified here as the H-Y antibody) prepared from newborn rat testis. When morula-stage embryos were cultured in the presence of this H-Y antibody, the development of roughly one half of the embryos was arrested at that stage, whereas the other half continued to develop to the blastocyst stage. The developmentaly arrested group of embryos resumed their development into blastocysts when cultured in antibody-free medium. Eighty to 90% of cattle embryos whose development was unaffected by the antibody were shown to possess a female karyotype (XX), and close to 80% of those embryos whose development was arrested possessed a male karyotype (XY). Cattle embryos whose sex had been presumptively identified by development in the presence of the H-Y antibody were cryopreserved and transferred, and the sex of the calves was examined. The overt sex of the young born from sexed embryos was found to be the same as that determined by chromosomal analysis. © 1993 Wiley-Liss, Inc.     

An evaluation of gene expression during somatic embryogenesis of two temperature-sensitive carrot variants unable to complete embryo development

The synthesis of putative stage-specific polypeptides during somatic embryogenesis of the carrot ( Daucus carota L. cv. Danvers) was investigated in the temperature-sensitive variants OB-2 and OB-3. These variants undergo normal embryo development to produce mature plantlets at the permissive temperature (24°C), but are arrested at the oblong stage to form elongated embryos without cotyledons at the restrictive temperature (33°C). Using two-dimensional polyacrylamide gel electrophoresis of in vivo labelled polypeptides, the patterns of stage-specific polypeptides in both lines were compared in: (1) oblong embryos grown at continuous 24°C vs oblong embryos exposed to 33°C during their temperature-sensitive period (i.e. embryos of identical morphology but different developmental fates); and (2) heartshaped embryos grown at constant 24°C vs enlarged oblong embryos exposed to 33°C during their temperature-sensitive period (i.e. embryos of the same age but different morphologies). The 22 putative stage-specific, polypeptides observed in this study fall into four classes: (1) line-specific, (2) age-specific, (3) unsynchronized, and (4) synchronized polypeptides. Only the last class, which consists of 4 polypeptides, exhibits synthesis patterns which are consistent with the polypeptides being causally involved in somatic embryo development. It is concluded that stage-specific behavior as assayed by PAGE analyses of simple 'present or absent' comparisons is insufficient to identify most of the polypeptides that may be relevant for somatic embryogenesis.     

Nuclear DNA content of somatic and zygotic embryos ofVitis vinifera cv. Grenache noir at the torpedo stage

Summary A flow cytometric analysis and an in situ DNA microspectrophotometric study were made concomitantly to establish why somatic grapevine (Vitis viniferacv. Grenache noir) embryos showed a low level of conversion into plantlets. In somatic embryos at the torpedo stage and in zygotic embryos at the same stage of development, ploidy level, DNA content per 2 C nucleus, and the cell-cycle state of the shoot apical meristem were examined. The frequency distribution histograms of nuclear DNA values were similar in the two types of embryos. At the torpedo stage both types of embryos had a majority of nuclei with 2 C DNA content equal to 1.6pg. In the shoot apices of somatic and zygotic embryos, DNA microspectrophotometry showed preferential blockage of the cell cycle at the G_0–1 stage; however, 20% of somatic embryo shoot apices were blocked at the G_0–2 stage. Analogies between somatic embryos and their zygotic homologues were shown. The genetical and environmental causes of the low level of conversion of grapevine somatic embryos into plantlets are discussed. Our work suggests that the in vitro culture conditions which were used could be incompatible with normal morphogenesis from the torpedo stage.     

Abnormal chromosome segregation at early cleavage is a major cause of the full-term developmental failure of mouse clones

To clarify the causes of the poor success rate of somatic cell nuclear transfer (SCNT), we addressed the impact of abnormalities observed at early cleavage stages of development on further full-term development using 'less-damage' imaging technology. To visualize the cellular and nuclear division processes, SCNT embryos were injected with a mixture of mRNAs encoding enhanced green fluorescent protein coupled with α-tubulin (EGFP-α-tubulin) and monomeric red fluorescent protein 1 coupled with histone H2B (H2B-mRFP1) and monitored until the morula/blastocyst stage three-dimensionally. First, the rate of development of SCNT embryos and its effect on the full-term developmental ability were analyzed. The speed of development was retarded and varied in SCNT embryos. Despite the rate of development, SCNT morulae having more than eight cells at 70h after activation could develop to term. Next, chromosomal segregation was investigated in SCNT embryos during early embryogenesis. To our surprise, more than 90% of SCNT embryos showed abnormal chromosomal segregation (ACS) before they developed to morula stage. Importantly, ACS per se did not affect the rate of development, morphology or cellular differentiation in preimplantation development. However, ACS occurring before the 8-cell stage severely inhibited postimplantation development. Thus, the morphology and/or rate of development are not significant predictive markers for the full-term development of SCNT embryos. Moreover, the low efficiency of animal cloning may be caused primarily by genetic abnormalities such as ACS, in addition to the epigenetic errors described previously.     

Morphologic evaluation and actin filament distribution in porcine embryos produced in vitro and in vivo

Porcine embryos produced in vitro have a small number of cells and low viability. The present study was conducted to examine the morphological characteristics and the relationship between actin filament organization and morphology of porcine embryos produced in vitro and in vivo. In vitro-derived embryos were produced by in vitro maturation, in vitro fertilization (IVF), and in vitro development. In vivo-derived embryos were collected from inseminated gilts on Days 2-6 after estrus. In experiment 1, in vitro-derived embryos (相似文献   

Sensitivity of Embryos and Larvae of the Sea Urchin Strongylocentrotus intermedius to Effects of Copper Ions

The effect of copper ions in seawater (0.02 mg/l) on the early stages of development of the sea urchin Strongylocentrotus intermedius was studied. Copper exposure from fertilization or the prism stage retarded development and growth and led to abnormalities in the morphology of the embryos and larvae. However, if development to the pluteus stage proceeded in clean seawater, an increased copper concentration did not inhibit the growth of larvae. If sea urchin embryos at fertilization and the prism stage were maintained for 1–2 days in seawater containing 0.02 mg Cu/l and then transferred to clean seawater, the adverse consequences of this exposure remained present after 48 h.