The effects of reduced nitrogenous compounds suggests that glutamine synthetase activity is involved in the development of somatic embryos in carrot

The addition of l-glutamine, -alanine or l-glutamic acid strongly stimulates somatic embryo formation in carrot, not only in the number of somatic embryos formed but also with respect to their development. The effects of the amino acids on somatic embryogenesis were stronger than that of ammonium ion. In particular, l-glutamine strongly stimulated the development of somatic embryos. To clarify the different effects of amino acids and ammonium ion, the activity of glutamine synthetase (GS; EC 6.3.1.2), a key enzyme involved in nitrogen assimilation, was measured. Its activity decreased during the later stages of embryo development.Abbreviations -Ala -alanine - Glu l-glutamic acid - Gln l-glutamine - 2,4-D 2, 4-dichlorophenoxyacetic acid - -GHA l-glutamic acid -monohydroxamate - GS glutamine synthetase - MS medium Murashige & Skoog (1962) medium - MS-NH₄ medium MS medium without NH₄NO₃ - MS+NH₄ medium MS-NH₄ medium with 10 mM NH₄Cl - MS+ala medium MS-NH₄ medium with 10 mM -alanine - MS+GLU medium MS-NH₄ medium with 10 mM l-glutamic acid - MS+GLN medium MS-NH₄ medium with 10 mM l-glutamine - NIR nitrite reductase - NR nitrate reductase     

Factors influencing the Agrobacterium tumefaciens-mediated transformation of carrot (Daucus carota L.)

To develop an efficient procedure for Agrobacterium tumefaciens-mediated genetic transformation of carrot (Daucus carota L.) the effects of several factors were studied. Parameters which significantly affected the transformation frequency were the variety, the explant type, and the co-cultivation period. Under optimal conditions, using the A. tumefaciens C58C1 containing either pGSTRN943 or pGSGluc1 and 3 days of co-cultivation, the frequency of transformation of petiole explants of the variety Nanco was greater than 45%. This procedure does not require acetosyringone or prolonged precultivation period. Using kanamycin (100 mg l^-1) for selection, a large number of transgenic plantlets developed from the embryogenic calli within 8–10 weeks of culture on hormone-free medium. Transformation was confirmed by histochemical detection of -glucuronidase activity in the transformed cells, by the ability of petiole segments to produce embryogenic calli in presence of kanamycin, and by Southern hybridization analyses.     

Regulation of phenylalanine ammonia-lyase genes in carrot suspension cultured cells

Induction of anthocyanin synthesis occurs during metabolic differentiation in carrot suspension cultured cells grown in medium lacking 2,4-dichlorophenoxyacetic acid (2,4-D), and is closely correlated with embryogenesis. Anthocyanin synthesis may also be induced by light-irradiation under different culture conditions. The phenylalanine ammonia-lyase (PAL) gene (TRN-PAL), which was transiently induced by the transfer effect, was also rapidly induced after light-irradiation. However, TRN-PAL was not involved in anthocyanin synthesis. A second PAL gene, ANT-PAL, was involved in anthocyanin synthesis. ANT-PAL was induced during metabolic differentiation in medium lacking 2,4-D parallel with the induction of chalcone synthase (CHS). PAL genes in the carrot genome are expressed differentially depending on the nature of the environmental stimulus, e.g. transfer effect and light, and other parameters which also affect anthocyanin synthesis.Abbreviations CHS chalcone synthase - 2,4-D 2,4-dichlorophenoxyacetic acid - GUS -glucuronidase - Luc firefly luciferase - PAL phenylalanine ammonia-lyase - UV ultraviolet     

Morphology of carrot somatic embryos formed in medium with abscisic acid

Somatic embryogenesis was induced from embryogenie cells derived from cotyledon expiants cultured on MS medium supplemented with 1 mg/L 2,4-D. In order to clarify the effect of abscisic acid (ABA) on the morphology of somatic embryos, embryogénie cell clumps or developing somatic embryos were treated continuously, or briefly, with ABA during culture. When embryogenie cells in MS medium without 2,4-D were treated with 0.04 mg/L ABA for the first week, normal embryos with two cotyledons increased slightly and embryos with anomalous cotyledons decreased. However when cell clumps in 2,4-D-free medium were treated with ABA in the second week normal embryos with two cotyledons decreased prominently and this decrease of normal embryos also occurred in the continuous ABA treatment during culture. Thus the morphological abnormalities in somatic embryogenesis occurred by exogenous ABA treatment beyond globular stage or by continuous treatment. The length of somatic embryos with anomalous cotyledons was larger than that of normal embryos with two cotyledons in control but both the normal and anomalous somatic embryos treated with ABA were almost similar in length. Somatic embryos formed in medium with ABA were larger in size than those in control due mainly to enlarged cotyledons. The enlarged cotyledons were composed of a greater number of cells than those of control. Therefore the enlargement of cotyledon by exogenous ABA seems to be not due to the enlargement of cells in cotyledons.     

Separation and analysis of cell types involved in early stages of carrot somatic embryogenesis

The occurrence of the polarized synthesis of DNA in embryogenic cell clusters of carrot on the third and fourth days after transfer to an embryogenesis-inducing medium was observed by labeling with [³H]thymidine and autoradiography. The cells that were actively synthesizing DNA were separated from cells that were not synthesizing DNA by maceration of cell clusters into individual protoplasts and centrifugation in a Percoll density gradient. [³⁵S]Methionine-labeled proteins extracted from the two types of cell were analyzed by SDS-PAGE and fluorography. Three polypeptides (of 69, 98 and 108 kD, respectively) were found only in cells that were actively synthesizing DNA and could be candidates for markers of the polarity of DNA synthesis that is specific to embryogenesis.     

Identification and isolation of a unique esterase from the medium of non-embryogenic cell line of cultured carrot cells

A unique esterase isozyme z with very low electrophoretic mobility on the anionic polyacrylamide gel (PAGE) was found in the medium of a non-embryogenic (Ca-4) line of cultured carrot (Daucus carota L.) cells. The protein corresponding to this esterase isozyme z was purified by electroelution from preparative PAGE and the esterase migrated as a single band with an apparent M _r of 35 000 on SDS-PAGE. The purified esterase isozyme z exhibited at least 350-fold higher specific activity than that in the total medium proteins.Dedicated to Dr. Friedrich Constabel on the occasion of his 60th birthday     

Bioreactor studies of the effect of medium pH on carrot (Daucus carota L.) somatic embryogenesis

Daucus carota cell differentiation was examined under different medium pH conditions in a controlled bioreactor. Somatic embryogenesis was affected by pH changes. Embryo production was greatest when the pH of the hormone-free medium was maintained at 4.3. However, the same level was not favourable to development since most embryos did not progress to the torpedo and plantlet stages. In contrast, although there was about a threefold decrease in embryo yield in cultures on the same free 2,4-dichlorophenoxyacetic acid medium maintained at pH 5.8, cells differentiated into fully developed plantlets. Changes in embryo development appeared to be associated with alterations in ammonium loss from the medium and sugar uptake.Abbreviation 2,4-D 2,4-dichlorophenoxyacetic acid     

Calcium increases the yield of somatic embryos in carrot embryogenic suspension cultures

An upward shift in the concentration of calcium present in the medium during somatic embryogenesis increased the number of embryos produced approximately two-fold. This was observed when embryogenic suspension cells grown in 2,4-D medium with the normal calcium concentration of 10^–3 M were transferred to hormone-free medium containing 10^–2 M calcium and when embryogenic suspension cells grown in 2,4-D medium containing 10^–4 M calcium were transferred to hormone-free medium with 10^–3 M calcium. At calcium concentrations between 6·10^–3 and 10^–2 M globular stage somatic embryos were found in cultures supplemented with 2·10^–6 M of 2,4-D indicating that elevated calcium counteracts the inhibitory effect of 2,4-D on somatic embryogenesis. No qualitative changes were found in the pattern of extracellular polypeptides as a result of growth and embryogenesis in media with different calcium concentrations.     

On the occurrence of somatic meiosis in embryogenic carrot cell cultures

During the establishment of an embryogenic cell line from a carrot hypocotyl explant, processes closely resembling meiotic divisions are seen. A microdensitometric analysis revealed that the amount of cellular DNA diminished in the majority of cells to the haploid level. However, the diploid level was re-established in a matter of a few days. The genetic consequences of this segregation were studied by analyzing restriction fragment length polymorphisms (RFLP) and randomly amplified polymorphic DNAs (RAPD). The results showed that the great majority of embryos regenerated from segregants and that different segregants had different genetic constitutions.     

Isolation of development-related genes in somatic embryo radicle of carrot (Daucus carota L.) using modified cDNA RDA

Using modified cDNA RDA capitalizing on the high affinity of streptavidin for biotin and magnetic-absorption-based separation, we have obtained four bands of specifically expressed cDNA in the carrot somatic embryo deregulated for 12 h, which were designated as NR-1, NR-2, NR-3 and NR-4, respectively. As revealed by homology analysis of their DNA sequences after cloning them into pBS, remarkable homology was demonstrated in NR-2, NR-3 and NR-4 with the genes coding for LEA (late embryogenesis abundant protein), Dna J and xyloglucan endo-transglycosylase in plants. On the other hand, NR-1 showing no homology with any known sequence may have come from unknown genes. Using³²P-labeled NR-1 as probe, hybridization with cDNA fragment population has shown that we have actually cloned a new gene fragment related to radicle development. As shown by further Southern hybridization, these genes may be present in carrot genome in the form of single or low copies.     

Isolation of development-related genes in somatic embryo radicle of carrot (Daucus carota L.) using modified cDNA RDA

Using modified cDNA RDA capitalizing on the high affinity of streptavidin for biotin and magnetic-absorption-based separation, we have obtained four bands of specifically expressed cDNA in the carrot somatic embryo deregulated for 12 h, which were designated as NR-1, NR-2, NR-3 and NR-4, respectively. As revealed by homology analysis of their DNA sequences after cloning them into pBS, remarkable homology was demonstrated in NR-2, NR-3 and NR-4 with the genes coding for LEA (late embryogenesis abundant protein), Dna J and xyloglucan endo-trans-glycosylase in plants. On the other hand, NR-1 showing no homology with any known sequence may have come from unknown genes. Using 32P-labeled NR-1 as probe, hybridization with cDNA fragment population has shown that we have actually cloned a new gene fragment related to radicle development. As shown by further Southern hybridization, these genes may be present in carrot genome in the form of single or low copies.     

Effects of light on somatic embryo development and abscisic levels in carrot suspension cultures

Carrot cells were cultured under various light spectra and intensities at different times following the initiation of suspension cultures from callus. The highest intensity white and blue light treatments were inhibitory to growth and somatic embryogenesis. Red and green light were not different from dark treatments which produced the highest total number of embryoids. After extended time in culture, carrot cells in blue light produced secondary embryoids and anthocyanin. Cultures in red light had multiple cotyledons and orange-pigmented radicles. Leafy cotyledons occurred in all light treatments. Abscisic acid production peaked at the heart stage of embryogenesis and synthesis was most pronounced in blue light. Red light enhanced development to the heart stage. Both the red and blue light spectra may be used to manipulate carrot cell cultures to optimize growth.     

Abscisic acid and stress treatment are essential for the acquisition of embryogenic competence by carrot somatic cells

Studies of carrot embryogenesis have suggested that abscisic acid (ABA) is involved in somatic embryogenesis. A relationship between endogenous ABA and the induction of somatic embryogenesis was demonstrated using stress-induced system of somatic embryos. The embryonic-specific genes C-ABI3 and embryogenic cell proteins (ECPs) were expressed during stress treatment prior to the formation of somatic embryos. The stress-induction system for embryogenesis was clearly distinguished by two phases: the acquisition of embryogenic competence and the formation of a somatic embryo. Somatic embryo formation was inhibited by the application of fluridone (especially at 10⁻⁴ M), a potent inhibitor of ABA biosynthesis, during stress treatment. The inhibitory effect of fluridone was nullified by the simultaneous application of fluridone and ABA. The level of endogenous ABA increased transiently during stress. However, somatic embryogenesis was not significantly induced by the application of only ABA to the endogenous level, in the absence of stress. These results suggest that the induction of somatic embryogenesis, in particular the acquisition of embryogenic competence, is caused not only by the presence of ABA but also by physiological responses that are directly controlled by stresses.     

The cytokinins of cultured carrot cells

Summary Cytokinin-autotrophic strains of carrot callus contained active substances with Chromatographic mobilities on Sephadex LH-20 corresponding to 6-(4-hydroxy-3-methylbut-trans-2-enylamino)purine (Zeatin, Z), 6-(3-methylbut-2-enylamino)purine (iP) and the ribosides (9R)Z and (9R)iP. The apparent major activity was found in a fraction, with an elution volume of 242–291 ml. Hydrolysis of this fraction with HCl and -Glucosidase gave rise to Z, indicating that the major active compound is a polar conjugate of Zeatin.In all experiments the extracts were tested immediately after preparation; deep freeze storage, led to a considerable loss of activity in polar fractions. while the free base cytokinins and their ribosides showed increased activity levels.Analogous results were obtained by means of paper chromatography.     

Synchronization of somatic embryogenesis from carrot cells at high frequency as a basis for the mass production of embryos

Synchronization of somatic embryogenesis at high frequency is a useful system for the mass production of embryos. Many attempts have been carried out, however, it was difficult to obtain the system in which most of the initial embryogenic cells or cell clusters synchronously differentiate to embryos. In carrot suspension cultures, high frequency, synchronous embryogenesis systems (following three systems) have been established.(1) Small spherical single cells from suspension cultures obtained by sieving and density gradient centrifugation in Percoll solutions differentiated to embryogenic cell clusters at high frequency when they were cultured in a medium containing 2,4-dichlorophenoxyacetic acid (0.05 micromolar), zeatin (1 micromolar) and mannitol (0.2 molar). (2) Embryogenic cell clusters from suspension cultures obtained by sieving, density gradient centrifugation in Ficoll solutions, and subsequent centrifugation at a low speed for a short time synchronously differentiated to embryos, especially globular embryos at high frequency, when they were cultured in a medium containing zeatin (0.1 micromolar) but no auxin. (3) Embryogenic cell clusters obtained by above method are cultured at cell densities of 2×10³ cell clusters ml^-1. Globular embryos which were sieved from embryos induced synchronously differentiated to torpedo-shaped embryos at high frequency when they were cultured at densities below 150 globular embryos ml^-1.Using these systems, the whole process of embryogenesis from single cells to whole plants could be synchronously induced at high frequency.Abbreviations ABA abscissic acid - 2,4-d 2,4-dichlorophenoxyacetic acid - GA₃ gibberellin A₃ - IAA indoleacetic acid - NAA naphthylacetic acid     

Regulation of an embryogenic carrot gene (DC 2.15) and identification of its active promoter sites

According to previous studies the expression of the geneDC 2.15 is induced in cultured carrot cells after a transfer to an auxin-free medium, where somatic embryo development occurs. This embryogenic gene encodes a prolinerich protein, which resembles proteins involved in auxin-controlled developmental processes. To understand the mechanism underlying the regulation ofDC 2.15, an experimental approach has been employed which allows the direct identification of theDC 2.15 promoter structure by applying PCR techniques. We demonstrate the presence of five distinct promoter sequences highly similar in structure, but slightly different in a common region of about 15 nucleotides, which contain the binding site for the GATA factor originally found in the human HOX gene. Activity of each promoter structure was assessed in developing somatic embryos containing the specific sequence fused to the -glucuronidase (GUS) reporter gene. For two of the five promoter structures a drastic increase in activity was registered during the torpedo stage while the remaining three were inactive throughout the stages of somatic embryogenesis.