胡萝卜(Daucus carota L.)胚性细胞蛋白的分离研究

应用IEF/SDS-PAGE双向电泳技术,比较了胡萝卜胚性细胞、非胚性细胞和不同发育时期的胚状体中可溶性蛋白的双向电泳图谱,结果发现在胚性细胞中特异存在的胚性细胞蛋白在不同发育时期的胚状体中也存在,但在非胚性细胞中不存在。因此,推测体细胞胚胎发生所需的一些基因在胚性细胞中就早已表达了。我们还成功地分离和测定了ECP 45-2 N-末端和中央部分氨基酸序列。与已知氨基酸序列相比,ECP 45-2部分氨基酸序列与ECP 45-1 部分氨基酸序列具有较高比例的同源性。因此, ECP 45-1和45-2可能属于同一因基家族。     

Characterization of a dehydrin-like phosphoprotein (ECPP-44) relating to somatic embryogenesis in carrot

Somatic embryogenesis in carrot can be induced by the treatment of shoot apices with various kinds of stress chemicals. Using this system, we previously identified a phosphoprotein (ECPP-44) that appears to be involved in the induction of somatic embryogenesis. We have also isolated and characterized a cDNA encoding ECPP-44. In this study, to further characterize ECPP-44, we performed Western blot and immuno-precipitation analyses. Western blot analysis revealed that ECPP-44 was present in embryogenic cells, stress- and non-stress-treated tissues, and somatic embryos but was absent in non-embryogenic cells. Furthermore, ECPP-44 was found in some parts of the carrot plant, such as tap roots, leaves, and flowers (18–26 days after fertilization) but not in mature dry seeds. Interestingly, we could detect phosphorylated ECPP-44 in embryogenic cells and somatic embryos but not in non-embryogenic cells, tap roots, and non-stress-treated shoot apices by immunoprecipitation analysis, even though the protein existed. Our results suggest that ECPP-44 may perform some role in the induction or maintenance of embryogenic competence.     

IAA Metabolism in Embryogenic and Non-Embryogenic Carrot Cells

Carrot somatic embryos can readily be induced from embryogeniccells transferred from auxin-containing medium to auxin-freemedium, but not from transferred non-embryogenic cells. It iswell-known that IAA, a natural auxin, plays important rolesin many physiological responses including somatic embryogenesis,but, there is no report of the IAA metabolism in embryogenicand non-embryogenic cells. Therefore, we examined IAA metabolismin embryogenic and nonembryogenic carrot cells. In this paper the IAA metabolism in embryogenic cells and non-embryogeniccells is described. The induction of IAAsp formation was clarifiedin both cells. On the other hand, in non-embryogenic cells,an unknown metabolite was detected and identified as oxindole-3-acetylasparticacid (oxIAAsp). OxIAAsp formation may be induced to eliminateexcess auxin. Furthermore, endogenous IAA contents in both cellswere quantified and the relationship between somatic embryogenesisand IAA metabolism is discussed. (Received May 2, 1994; Accepted August 30, 1994)     

Variation in endoplasmic-reticulum-associated glycoproteins of carrot cells cultured in vitro

Glycoproteins extracted from microsomes of in-vitro-cultured cells of Daucus carota L. cv. US-Harumakigosun were analysed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and detected by peroxidase-conjugated concanavalin A. The appearance of a glycoprotein with M_r 31 000 (GP 31) was correlated with the ability of cells to form somatic embryos. GP 31 appeared in embryogenic cells cultured in 2,4-dichlorophenoxyacetic acid (2,4-D)-containing medium, but not in somatic embryos and non-embryogenic cells; it disappeared when the cultures were transferred to auxin-free medium. Another glycoprotein with M_r 32 000 (GP 32) was detected only in non-embryogenic cells, regardless of the presence or absence of 2,4-D. Both glycoproteins, GP 31 and GP 32, were associated with the rough endoplasmic reticulum and were extractable with 0.05% deoxycholate.Abbreviations Con A concanavalin A - 2,4-D 2,4-dichlorophenoxyacetic acid - ER endoplasmic reticulum - GP 31, GP 32 a glycoprotein with an apparent molecular mass of 31 or 32 kdalton - kDa kilodalton - MS Murashige and Skoog - M_r apparent molecular mass - SDS-PAGE sodium dodecylsulfate-polyacrylamide gel electrophoresis     

Initial identification of a phosphoprotein that appears to be involved in the induction of somatic embryogenesis in carrot

We examined changes in the absence versus presence patterns of phosphoproteins with respect to the acquisition of embryogenic competence during somatic embryogenensis in carrot (Daucus carota L.). To characterize a possible correlation between the induction of embryogenic competence and protein phosphorylation, we examined the patterns of protein phosphorylation in embryogenic cells (EC) and non-embryogenic cells (NC) that had lost the ability to form somatic embryos. Two-dimensional polyacrylamide gel electrophoresis and subsequent autoradiography revealed the presence of 31 phosphoproteins in EC but not in NC. Furthermore, when we examined the induction of somatic embryogenesis by certain stress compounds in the absence of phytohormones, we identified one specific phosphoprotein (ECPP-44). ECPP-44 was found to be induced in all treatments that resulted in embryogenic competence. The partial amino acid and nucleotide sequence of ECPP-44 shows partial homology to two dehydrins (ERD10 and ERD14) from Arabidopsis. Received: 1 October 1999 · Accepted: 3 November 1999     

Embryogenesis in flowering plants: Recent approaches and prospects

The overall architectural pattern of the mature plant is established during embryogenesis. Very little is known about the molecular processes that underlie embryo morphogenesis. Last decade has, nevertheless, seen a burst of information on the subject. The synchronous somatic embryogenesis system of carrot is largely being used as the experimental system. Information on the molecular regulation of embryogenesis obtained with carrot somatic embryos as well as observations on sandalwood embryogenic system developed in our laboratory are summarized in this review. The basic experimental strategy of molecular analysis mostly relied on a comparison between genes and proteins being expressed in embryogenic and non-embryogenic cells as well as in the different stages of embryogenesis. Events such as expression of totipotency of cells and establishment of polarity which are so critical for embryo development have been characterized using the strategy. Several genes have been identified and cloned from the carrot system. These include sequences that encode certain extracellular proteins (EPs) that influence cell proliferation and embryogenesis in specific ways and sequences of the abscisic acid (ABA) inducible late embryogenesis abundant (LEA) proteins which are most abundant and differentially expressed mRNAs in somatic embryos. That LEAs are expressed in the somatic embryos of a tree flora also is evidenced from studies on sandalwood. Several undescribed or novel sequences that are enhanced in embryos were identified. A sequence of this nature exists in sandalwood embryos was demonstrated using aCuscuta haustorial (organ-specific) cDNA probe. Somatic embryogenesis systems have been used to assess the expression of genes isolated from non-embryogenic tissues. Particular attention has been focused on both cell cycle and histone genes     

A carrot G-box binding factor-type basic region/leucine zipper factor DcBZ1 is involved in abscisic acid signal transduction in somatic embryogenesis.

Carrot (Daucus carota) somatic embryogenesis has been extensively used as an experimental system for studying embryogenesis. In maturing zygotic embryos, abscisic acid (ABA) is involved in acquisition of desiccation tolerance and dormancy. On the other hand, somatic embryos contain low levels of endogenous ABA and show desiccation intolerance and lack dormancy, but tolerance and dormancy can be induced by exogenous application of ABA. In ABA-treated carrot embryos, some ABA-inducible genes are expressed. We isolated the Daucus carota bZIP1 (DcBZ1) gene encoding a G-box binding factor-type basic region/leucine zipper (GBF-type bZIP) factor from carrot somatic embryos. The expression of DcBZ1 was detected in embryogenic cells, non-embryogenic cells, somatic embryos, developing seeds, seedlings, and true leaves. Notably, higher expression was detected in embryogenic cells, true leaves, and seedlings. The expression of DcBZ1 increased in seedlings and true leaves after ABA treatment, whereas expression was not affected by differences in light conditions. During the development of zygotic and somatic embryos, increased expression of DcBZ1 was commonly detected in the later phase of development. The recombinant DcBZ1 protein showed specific binding activity to the two ABA-responsive element-like motifs (motif X and motif Y) in the promoter region of the carrot ABA-inducible gene according to results from an electrophoretic mobility shift assay. Our findings suggest that the carrot GBF-type bZIP factor, DcBZ1, is involved in ABA signal transduction in embryogenesis and other vegetative tissues.     

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     

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     

4-Hydroxybenzyl alcohol accumulates in suspension-cell cultures and inhibits somatic embryogenesis in carrot

Somatic embryogenesis in carrot ( Daucus carota L.) is strongly inhibited by certain factors that accumulate in culture medium of high-density cultures of embryogenic cells. We previously identified 4-hydroxybenzyl alcohol (4HBA) as one of the inhibitory factors. In this study, we analyzed the accumulation pattern of 4HBA in the cultures of carrot suspension cells. When somatic embryogenesis was induced by culturing embryogenic cells in phytohormone-free Murashige and Skoog medium at various initial cell densities, 4HBA accumulated in the culture medium. The concentration of 4HBA in high cell density cultures was higher than in low cell density cultures. The accumulation of 4HBA in high cell density cultures was rapid during the early days of culture. This rapid accumulation of 4HBA in high cell density cultures might result in the strong inhibition of somatic embryogenesis. The production of 4HBA decreased as the somatic embryos developed. In addition, embryogenic cells released larger amount of 4HBA into the culture medium compared with non-embryogenic cells. These results suggest that the production of 4HBA is both related to embryogenic competence and developmentally regulated during somatic embryogenesis.     

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.     

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.     

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.     

9-kDa acidic and basic nsLTP-like proteins are secreted in the culture-medium conditioned by somatic embryogenesis in Cichorium

Direct somatic embryogenesis was induced in leaf fragments of the Cichorium ‘474’ genotype. Addition of glycerol to the induction medium allowed a relative synchronization of the first division of the embryogenic cells that only occurs after transfer at day 5 to a medium without glycerol. The abundant presence of 9-kDa extracellular proteins in the culture-medium conditioned by somatic embryogenesis is reported here. Such proteins were also secreted when embryogenesis was initiated in root but were never detected when a non-embryogenic genotype was used as control under the same conditions of culture. Among these proteins, one basic and one acidic isoform were separated through cation-exchange chromatography. Both proteins were recognized by an antiserum raised against the carrot EP2 non-specific lipid transfer protein (nsLTP). In addition, the partial N-terminal amino acid sequence of each isoform showed similarities with nsLTPs of different plant species. The presence of the acidic nsLTP-like protein was concomitant with the obtention of embryogenic cells during the induction step. The basic form was shown to have only accumulated during the expression step when first divisions of embryogenic cells have occurred. These results allowed us to report, for the first time, the secretion of a 9-kDa acidic nsLTP-like protein in the culture-medium conditioned by plant embryogenic cells.     

Purification and immunohistochemical detection of an embryogenic cell protein in carrot

An embryogenic cell protein from carrot (Daucus carota L.), designated ECP31 for embryogenic cell protein and with a relative mass of 31,000, was purified by sequential column chromatographies. Its apparent relative mass was estimated to be 120,000 by gel filtration. Immunoblotting and immunohistochemical studies showed that ECP31 was preferentially localized in the peripheral cells of clusters of embryogenic cells in the presence of 2,4-dichlorophenoxyacetic acid (2,4-D) and disappeared during the course of somatic embryogenesis in the absence of 2,4-D. ECP31 began to accumulate on the 33rd day after initiation of cultures of hypocotyl segments on Murashige-Skoog medium with 2,4-D, when callus began to appear on the segments. In dry seeds, lower amounts of ECP31 were located throughout the entire zygotic embryos but not in endosperm. ECP31 was also detected in provascular tissue of malformed somatic embryos.     

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.     

Formation of embryogenic cell clumps from carrot epidermal cells is suppressed by 5-azacytidine, a DNA methylation inhibitor

Using a direct somatic embryogenesis system in carrot, we examined the role of DNA methylation in the change of cellular differentiation state, from somatic to embryogenic. 5-Azacytidine (aza-C), an inhibitor of DNA methylation suppressed the formation of embryogenic cell clumps from epidermal carrot cells. Aza-C also downregulated the expression of DcLEC1c, a LEC1-like embryonic gene in carrot, during morphogenesis of embryos. A carrot DNA methyltransferase gene, Met1-5 was expressed transiently after the induction of somatic embryogenesis by 2,4-dichlorophenoxyacetic acid (2,4-D), before the formation of embryogenic cell clumps. These findings suggested the significance of DNA methylation in acquiring the embryogenic competence in somatic cells in carrot.     

Differences in pectic polysaccharides between carrot embryogenic and non-embryogenic calli

Summary Cell walls and media were obtained from three kinds of carrot cell culture, namely, embryogenic callus (EC), non-embryogenic callus (NC) and somatic embryos (SE), and analyzed for their sugar content and sugar composition by electrophoresis and gas chromatography. EC formed large cell clusters while NC formed small clusters. Observations under the light microscope revealed that the intercellular contacts in NC were much more limited than those in EC. The analysis of pectic polysaccharides revealed that the level of neutral sugars was higher than that of acidic sugars in EC, while the opposite was true in NC. Gaschromatographic analysis of neutral sugars in pectic fractions revealed that EC and SE were rich in arabinose, while NC was rich in galactose. On the basis of these results, we discuss the possible involvement of neutral sugars, and of arabinose and galactose in particular, in pectic polysaccharides in intercellular contacts.Abbreviations EC embryogenic callus - NC non-embryogenic callus - SE somatic embryo - MS Murashige and Skoog - PAS periodic acid-Schiff s reagent