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.     

Potential biochemical markers for somatic embryos ofEurycoma longifolia jack

Biochemical marker is one of the important tools for the early identification and selection of somatic embryogenesis in plants. Studies in developing the biochemical marker for somatic embryogenesis ofEurycoma longifolia disclosed that the regenerated and non-regenerated cotyledons as well as embryogenic and non-embryogenic callus were significantly different in terms of the total protein content as well as the specific activity of peroxidase. The data obtained revealed that embryogenic tissue possess the highest amount of total soluble protein (64.24 mg/g fresh weight) and two protein bands (molecular weight = 25 and 21 kDa) were observed at high intensity. The highest specific activity of peroxidase (578.1 ± 61.6 unit/mg soluble protein) was recorded in embryogenic callus and only 157.1 ± 20.5 unit/mg soluble protein was determined in the non-embryogenic callus. Results obtained also showed that there were variations in the peroxidase banding profiles of the four samples examined. Only two bands were observed in the non-embryogenic callus at the Rf of 0.24 and 0.27, whereas in the embryogenic callus, four bands with high intensity were detected at the Rf of 0.24, 0.41, 0.49 and 0.81.     

Somatic embryogenesis and plant regeneration of Gladiolus (Gladiolus hort.)

Summary Friable embryogenic callus and somatic embryos of 4 Gladiolus cultivars were obtained on Murashige and Skoog (MS) medium with various concentration of auxins from the following explants: corm slices, young leaf bases and whole, intact plantlets. Somatic embryos transferred on MS hormone-free medium regenerated into plantlets. All plantlets obtained through embryogenesis did not differ phenotypically from the parental clones. The embryogenic friable callus has been maintained for over 2 years in culture and has retained a very high regeneration capacity.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - KIN kinetin - NAA naphthaleneacetic acid - MS Murashige and Skoog Medium (1962) - E embryogenic callus - NE non-embryogenic callus     

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.     

Effects of kanamycin on tissue culture and somatic embryogenesis in cotton

The aminoglycoside antibiotic kanamycin was evaluated for its effects on callus initiation from hypocotyl and cotyledon explants, proliferation of non-embryogenic and embryogenic calli, initiation and development of somatic embryos in cotton (Gossypium hirsutum L.). On this basis, the potential use of kanamycin as a selective agent in genetic transformation with the neomycin phosphotransferase II gene as the selective marker gene was evaluated. Cotton cotyledon and hypocotyl explants, and embryogenic calluses were highly sensitive to kanamycin. Kanamycin at 10 mg/L or higher concentrations reduced callus formation, with complete inhibition at 60 mg/L. Kanamycin inhibited embryogenic callus growth and proliferation, as well as the initiation and development of cotton somatic embryos. The sensitivity of embryogenic callus and somatic embryos to kanamycin was different during the initiation and development stages. Kanamycin was considered as a suitable selective agent for transformed callus formation and growth of non-embryogenic callus. Forty to sixty mg/L was the optimal kanamycin concentration for the induction and proliferation of transformed callus. The concentration of kanamycin must be increased (from 50 to 200 mg/L) for the selection of transformation embryogenic callus and somatic embryos. A scheme for selection of transgenic cotton plants when kanamycin is used as the selection agent is discussed.     

尾巨桉胚状体诱导及愈伤组织差异研究

以尾巨桉优良无性系无菌苗茎段为外植体,通过对多种不同浓度生长调节剂组合的优化,进行胚状体诱导研究;并对胚性与非胚性愈伤组织进行形态解剖学观察、相关生理指标检测以及相关基因荧光定量PCR分析,以揭示尾巨桉胚性愈伤组织非胚性化发生的机理,为建立尾巨桉体细胞胚胎再生体系提供参考。结果表明:(1)胚性愈伤组织在MS+0.1mg/L NAA+0.01mg/L TDZ培养基中诱导得到胚状体,外植体经过0.5mol/L蔗糖处理12h有助于胚性愈伤组织产生胚状体,胚状体最高发生率为16.7%。(2)尾巨桉胚性与非胚性愈伤组织石蜡切片观察发现,两者的细胞形态特征存在明显的差异,胚性愈伤组织细胞体积小,排列紧密,表现出典型的胚性细胞特征,而非胚性细胞比较大,排列疏松,细胞呈不规则形状。(3)生理生化指标检测结果表明,非胚性愈伤组织中蛋白质含量、SOD、PPO及CAT活性均显著低于胚性愈伤组织,非胚性愈伤组织中木质素、可溶性糖含量以及PAL和POD活性要高于胚性愈伤组织,二者的反肉桂酸4-单加氧酶基因、淀粉磷酸化酶基因、谷胱甘肽硫转移酶基因、葡萄糖-1-磷酸腺苷酸转移酶基因、葡萄糖六磷酸异构酶基因、分支酸合酶基因以及苯丙氨酸解氨酶基因表达差异也达到显著水平。     

Differences in cell wall polysaccharide composition between embryogenic and non-embryogenic calli of <Emphasis Type="Italic">Medicago arborea</Emphasis> L.

Analysis of cell wall polysaccharide composition of embryogenic and non-embryogenic calli obtained from hypocotyl and petiole explants from Medicago arborea L. revealed significant differences. For calli induced from both hypocotyls and petioles, levels of total sugars, pectins, and hemicelluloses were higher in embryogenic than in non-embryogenic calli. Whereas in the residual cellulose fraction, the highest levels of sugar were detected in non-embryogenic calli. When comparing the two donor sources of callus explants, the highest total sugar levels were detected in embryogenic calli induced from petioles, mainly in the pectin fraction and to a lesser extent in the hemicellulose fraction. Moreover, analysis of uronic acids revealed higher levels in embryogenic calli, primarily in the pectin fraction. Analysis of those sugars associated with cell walls of calli suggested that these polysaccharides consisted of pectic polysaccharides and glucans, and that their levels were higher in embryogenic than non-embryogenic calli.     

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.     

Somatic embryogenesis and plant regeneration from cultured mature caryopses of bahiagrass (Paspalum notatum Flugge)

Callus cultures were initiated from mature excised caryopses of bahiagrass (Paspalum notatum Flugge) on Murashige & Skoog medium supplemented with 20 gl^–1 sucrose and 2 mg l^–1 2,4-D. Excised mature caryopses readily germinated and callus developed at the base of coleoptiles. There was considerable variation in the amount of non-embryogenic callus among the cultures. Most of the explants produced non-embryogenic translucent callus consisting of thin-walled cells and unorganized tissue. Some of these calli gave rise only to roots. Other explants formed embryogenic calli which were distinguished morphologically as white, globular and friable. Somatic embryos developed and germinated precociously when embryogenic calli were transferred to a 2,4-D-free medium. Somatic embryogenesis was confirmed by histological sections and scanning electron microscopy. Of the 300 cultures, 35 were embryogenic but only 10 produced plants that were successfully grown to maturity.     

Influence of some exogenous amino acids on the production of maize embryogenic callus and on endogenous amino acid content

The effects of four exogenous amino acids (proline, glycine, asparagine and serine) on the production of maize embryogenic callus and on its endogenous amino acid content have been investigated. For this purpose, an established embryogenic line of Type 1 callus from the inbred W64Ao2 has been used. From the results it may be concluded that a concentration of proline exceeding 6 mM is negative for the production of embryogenic callus. When proline is eliminated from the medium, other amino acids tested in certain concentrations yield a percentage of embryogenic callus production that exceeds or equals that of proline. The endogenous free proline content in embryogenic callus is significantly higher than that in non-embryogenic callus regardless of proline presence in the medium. The only exception are the glycine-containing media, in which endogenous free alanine of embryogenic callus increases at the expense of endogenous free proline. This study suggest a positive role of endogenous free proline or alanine accumulation in the embryogenic callus production which might be related to an adaptation to the metabolic changes produced by in vitro culture and embryogenesis induction. Furthermore, these results indicate that treatments with amino acids that are different from proline can be used to improve the efficiency of embryogenic callus production from well established maize callus cultures.Abbreviations Ala alanine - Asn asparagine - 2,4-d 2,4-dichlorophenoxyacetic acid - EC embryogenic callus - nEC non-embryogenic callus - Gaba gamma-aminobutyric acid - Glu glutamic acid - Gly glycine - Pro proline - Ser serine     

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.     

几种植物体细胞胚胎发生标记蛋白的研究

利用ＳＤＳ一聚丙烯酰胺凝胶电泳对西洋参（ＰａｎａｘｑｕｌｎｇｕｅｆｏｌｉｕｓＬ．）、香雪兰（Ｆｒｅｅｓｎｉｒｅ－ｆｒａＫｌａｔｔ．）、光棘豆（ＯｘｙｔｒｏｐｏｌｅｐｔｏｐｈｙｌｌａＬ．）和草木气（Ｍｅｄｌ’ｃａｇｏｓｕａａｖｅｏｌｅｎｓＬ．）４种植物的胚性、非胚性愈伤组织及胚状体的可溶性蛋白组成进行了分析。结果表明,在这几种植物的胚性愈伤组织中均存在非胚性愈伤组织中没有的特异蛋白质。在西洋参和光棘豆中,这些胚性蛋白质在胚状体中也能检测到。另外,在香雪兰和光棘豆的非胚性愈伤组织中还发现了胚性愈伤组织中没有的蛋白质成分。特异性的胚性蛋白质可以作为分子标记来鉴别潜在的胚性培养物,跟踪胚胎发育,并为进一步探讨体细胞胚胎发生的基因调控和分子机制提供基础。     

Endogenous hormone concentrations and embryogenic callus development in wheat

Immature zygotic embryos of two wheat (Triticum aestivum L.) genotypes, known for their different ability to generate embryogenic callus, were used as initial explants to establish callus cultures. Embryogenic and non-embryogenic calluses were obtained from the competent genotype (`Combi'), while only non-embryogenic callus was produced by the incompetent one (`Devon'). The morphogenetic competence of each callus type was evaluated by transferring some segments to regeneration conditions. The endogenous hormone concentrations (free indole-3-acetic acid [IAA], abscisic acid [ABA], gibberellins ₁, ₃ and ₂₀ [GAs], zeatin/zeatin riboside [Z/ZR] and N ⁶[²-isopentenyl] adenine/ N ⁶[²-isopentenyl] adenosine; [iP/iPA]) of the initial explants were determined by means of radio-immunoassay and showed that the only difference was the higher concentration of ABA found in the embryos of the most competent genotype; whose embryos showed a reduced rate of precocious germination. When analysing the endogenous hormone concentrations in the various callus types generated in each genotype, it was found that only differences in the free IAA concentrations were associated with variations in the morphogenic properties of the calluses. Higher concentrations of endogenous free IAA were typical of embryogenic callus cultures. It was also observed that a loss in the embryogenic competence of the calluses, due to a prolonged time of culture, occurred concomitantly with a reduction in free IAA concentrations, practically to the concentrations found in the non-embryogenic calluses.     

Extracellular matrix surface network of embryogenic units of friable maize callus contains arabinogalactan-proteins recognized by monoclonal antibody JIM4

Embryogenic units of friable maize callus are formed as globular or oblong packets of tightly associated meristematic cells. These units are surrounded by conspicuous cell walls visible in light microscopy after staining with basic fuchsin. Transmission electron microscopy revealed that embryogenic cells are rich in endoplasmic reticulum, polysomes and small protein bodies, and that the outermost layer of their cell walls is composed of fibrillar material. Electron microscopy has also shown that this material covers the surface of embryogenic cells as a distinct layer which we denote as extracellular matrix surface network (ECMSN). Employing histochemical staining with β-glucosyl Yariv phenylglycoside, we localized arabinogalactan-proteins (AGPs) to the outer cell walls of embryogenic units including ECMSN. The most prominent staining was found in cell-cell junction domains. Large non-embryogenic callus cells were not stained with this AGP-specific dye. Immunofluorescence and silver-enhanced immunogold labelling using monoclonal antibody JIM4 has shown that the ECMSN of embryogenic cells is equipped with JIM4 epitope, while non-embryogenic callus cells are devoid of this epitope. We propose that some specific AGPs of the ECMSN might be relevant for cell-cell adhesion and recognition of embryogenic cells during early embryogenic stages, and that the JIM4 antibody can serve as an early marker of embryogenic competence in maize callus culture. Received: 13 March 1998 / Revision received: 6 June 1998 / Accepted: 1 July 1998     

Isozymes as biochemical and cytochemical markers in embryogenic callus cultures of maize (Zea mays L.)

Isozyme analyses were carried out on protein extracts of non-embryogenic and embryogenic callus fromZea mays L., using polyacrylamide gel electrophoresis. We examined the isozyme patterns of glutamate dehydrogenase, peroxidase and acid phosphatase for their utility as biochemical markers of maize embryogenic callus cultures. These isozyme systems were also used to examine possible correlations between isozymes and different stages of regeneration. The zymograms of peroxidase and glutamate dehydrogenase differed for non-embryogenic and embryogenic callus. Further, some isozymes were correlated with the morphological appearance of the tissue while others seemed to be involved with the duration of the culture period. Using the same enzyme assays on fresh tissue samples we were able to test the three enzymes as cytochemical markers in embryogenic cultures. Glutamate dehydrogenase proved to be most successful to discriminate embryogenic from non-embryogenic cells.     

Discrimination of higher plant calluses based on embryogenic capacity and taxonomic classification by pyrolysis mass spectrometry

Pyrolysis mass spectrometry (PyMS) is a rapid, simple, high-resolution analytical method based on thermal degradation of complex material in a vacuum, and has been widely applied to the discrimination of closely related microbial strains. Minimally prepared samples of embryogenic and non-embryogenic calluses derived from various higher plants (sweet potato, morning glory, Korean ginseng, Siberian ginseng, and balloon flower) were subjected to PyMS for spectral fingerprinting. A dendrogram based on the unweighted pair group method, with arithmetic mean of pyrolysis mass spectra, divided the calluses into Siberian ginseng embryogenic callus and the others, which were subsequently divided into embryogenic and non-embryogenic callus groups, regardless of plant species from which the calluses were derived. In the non-embryogenic callus group, the dendrogram was in agreement with the known taxonomy of the plants. These results indicate that PyMS analysis could be applied for discriminating plant calluses based on embryogenic capacity and taxonomic classification.     

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.     

Production of embryogenic callus from nonembryonic explants of Norway Spruce Picea abies (L.) Karst

Callus has been induced on needle and bud explants from 2, 6 and 26 year old Picea abies (L.) Karst, trees. Seventy seven percent of the needle explants from the youngest material was productive compared to 0.2% for the old tree. New embryogenic sections appeared in the non-embryogenic callus derived from 2, 6 and 26 year old trees after prolonged culture and was promoted by the use of an established embryogenic callus line in a nurse culture system.Abbreviations EDTA Ethylenediaminetetraacetic acid - RAPD Random amplified polymorphic DNA     

Peroxidase activity in non-embryogenic and embryogenic calli and in developing somatic embryos of white fir (Abies concolor Gord. et Glend)

ABSTRACT

Peroxidase activity was monitored during somatic embryogenesis of white fir (Abies concolor Gord. et Glend) starting from a non-embryogenic callus. Results revealed profound differences between non-embryogenic and embryogenic calli with an elevated level of enzyme activity in non-embryogenic ones. Precotyledonary, early cotyledonary and late cotyledonary stages of somatic embryogenesis were characterized by a substantially reduced peroxidase activity compared to callus tissues and regenerated plantlets. Changes in peroxidase activity are as a rule paralleled by variation in isoenzyme composition. The utility of the enzyme in the induction stage of somatic embryogenesis in white fir is proposed.