Changes in isoperoxidases during shoot formation in tobacco callus

Summary Shoot formation in tobacco (Nicotiana tabacum L.) callus is accompanied by an increase in peroxidase activity which takes a form similar to a sigmoid curve. The “stationary” phase coincide with the period of organ formation. Characteristic changes in isoperoxidase pattern are found in the shoot-forming part of the callus. These changes are different from those in the nonshoot-forming part or in gibberellin-treated tissue, which does not form shoots.     

Cytohistological Studies on the Tissue Culture of Olea europaea L. I. Development of Callus in Vitro

The development of callus in vitro was investigated using the isolated explants from the autumn twig of Olea europaea. The callus developed on the cut surface of the stem-segment originate, d from the living cells of different tissues. Two distinct morphological types of the calli were observed. The highly friable callus was generally obtained while a non-friable form might develop occasionally. The change from one form to another was achieved by changing the level of NAA in the culture medium. These results obtainecl from above may be used to explain the possible role of the auxin playing a part in the form of callus. However, another distinct type of the callus in addition was also obtained in the same culture medium. This type of the callus developed in the form of a knob. It originated from cortical parenchyma cells distal from the cut surface of the stem The divisions of the cortex cells induced only were restricted to the inner layers near by the pericyele. The present observation suggests that the interpretation for the variations of the callus forms may be elaborated further when the roles of callus of the different sources will have been explored. There were three stages in the course of callus development from the cut sur- face of stem-segments, namely, activation, division and formation. These three dovelopmental stages were characterized by changes in cell morphology of the population as well as in the cell division, grawth and the relative RNA accomulation in the callus tissue. The results are shown in table 1. The formation stage proposed in this paper differs with the differentiation phase (Yeoman, 1970, 1973) on the differen- tiation of the tissues and it is suggested that appearance of wound-cambinm and differentiation of the parenchyma in this stage may be considered as the characteristics of callus development. The general conceptions of activation, dedifferentiation and differentiation are also briefly discussed.     

The Agrobacterium rhizogenes rolC-gene-induced somatic embryogenesis and shoot organogenesis in Panax ginseng transformed calluses

Expression of the Agrobacterium rhizogenes rolC gene in Panax ginseng callus cells results in formation of tumors that are capable to form roots. The selection of non-root forming tumor clusters yielded the embryogenic 2c3 callus line, which formed somatic embryos and shoots independently of external growth factors. Although the 2c3 somatic embryos developed through a typical embryogenesis process, they terminated prematurely and repeatedly formed adventitious shoot meristems and embryo-like structures. A part of the shoots and somatic embryos formed enlarged and fasciated meristems. This is the first indication of the rolC gene embryogenic effect and, to our knowledge, the first indication that a single gene of non-plant origin can induce somatic embryogenesis in plants.     

Low activity of amine-oxidases and accumulation of conjugated polyamines in disfavour of organogenic programs in Chrysanthemum leaf disc explants

Foliar discs (8 mm diameter) from expanding leaves of the middle part of vegetative shoots of Chrysanthemum morifolium Ramat raised in vitro were induced to form directly on specific media in vitro either roots or vegetative buds, or callus. The budding programme, on its specific medium, was deviated to callus formation by the addition of 2 mM β-OH-E (β-OH-ethyldrazine, an inhibitor of diamine oxidase). Conversely vegetative buds instead of callus were formed on the callus medium in the presence of 2 mM DFMO (difluoromethylornithine, an inhibitor of ornithine decarboxylase). Callus formation was characterized by high accumulation of free and particularly conjugated polyamines (PA), very low or undetectable activities of diamine- and polyamine oxidases, and transglutaminase. DFMO-deviation of callus initiation in favour of bud formation lowered the accumulation of PA and increased the activity of amine-oxidases. The high catabolism of PA in the organogenic (rooting, budding) programs was questioned as to its role in developmental processes. This revised version was published online in June 2006 with corrections to the Cover Date.     

Electron microscopic study of rapid morphogenetic processes in embryonic tissue explants of amphibia]

Submicroscopic rearrangements are described. They serve as the bases of rapid (up to 20 min) changes in the form of the common frog neurula explants: formation of filamentous layer under "naked" surface, appearance of lobopodia on "naked" surface, their "flow", cell polarization and submersion. In all these processes an active part appears to be played by microtubules and microfilaments the bundles of which are always oriented along the long axes of active cells or the directions of passive mechanical tensions. In the cells which are not yet polarized the microtubules form under the surface adjacent to the already polarized cell. This may be considered as one of the chains of cooperative cell polarization.     

Isozyme modifications and plant regeneration through somatic embryogenesis in sweet potato (Ipomoea batatas (L.) Lam.)

Summary The potential of somatic embryogenesis was evaluated for 10 cultivars of sweet potato through extensive embryogenic response and isozyme analysis. Embryogenic callus was induced by incubating lateral buds on Murashige and Skoog medium containing 10 M 2,4-dichlorophenoxyacetic acid for 6–8 weeks. The frequency of embryogenic response was low, and varied with genotypes, ranging from 0 to 17%. Embryo to plantlet formation could be enhanced by the use of the combination of 2,4-dichlorophenoxyacetic acid with kinetin, both used at 0.01 M. Embryogenic callus with its potential of plantlet formation has constantly been maintained for over two years. However, after several subcultures, 0.5 to 12% of embryogenic callus reverted irreversibly into friable fast-growing non-embryogenic callus whose ability to regenerate shoots was then definitively lost. The isozymes of esterase, peroxidase, glutamate oxaloacetate transaminase and acid phosphatase investigated in this study were found appropriate to distinguish compact embryogenic from friable non-embryogenic callus in sweet potato. In fact, the callus reversion was associated with a loss of bands or a decline in isozyme activity. On the contrary, very small changes in isozyme activity or no specific changes at all were observed during the differentiation of embryogenic callus into globular embryos.Abbreviations Acp acid phosphatase - BAP 6-benzylaminopurine - cv cultivar - df degree of freedom - 2,4-D 2,4-dichlorophenoxyacetic acid - Est esterase - Got glutamate oxaloacetate transaminase - IAA indole-3-acetic acid - MS Murashige and Skoog (1962) medium - Prx peroxidase - Tris tris(hydroxymethyl)aminomethane     

Stimulation of root and somatic embryo production in Euonymus europaeus L. by an inhibitor of polyamine biosynthesis

In vitro formation of roots and somatic embryos is obtained from cotyledon explants of a Spindle tree (Euonymus europaeus L.) cultured on two different media: a medium inducing callus formation and the production of roots, and a medium inducing callus formation, root and somatic embryo production. We studied the effects of -difluoromethylornithine (DFMO), a specific, irreversible inhibitor of ornithine decarboxylase (ODC) on root and somatic embryo production, growth and titers of putrescine in Euonymus explants and explant-derived calli. Early changes in putrescine levels were detected in both cultures before the visible emergence of roots or somatic embryos. DFMO rapidly inhibited putrescine accumulation and growth in non-embryogenic calli and highly stimulated rooting activity. DFMO partially inhibited putrescine accumulation in embryogenic calli. This inhibition had no effects on callus growth but significantly reduced the time of emergence of roots and highly stimulated somatic embryo production. The relationship among putrescine, putrescine metabolism, growth, root and somatic embryo formation is discussed.     

Growth and organogenesis in moth bean callus cultures as influenced by triazole growth regulators and gibberellic acid

The triazole plant growth regulators, paclobutrazol and uniconazole, reduced in vitro growth of moth bean callus by 20–25% when added to the culture medium at 1 mg/L (3.4 M). The addition of 10 mg/L (29 M) gibberellic acid (GA₃) to the culture medium in combination with the triazoles restored callus growth to a level equivalent to that of the untreated control. GA₃ alone had little effect on callus growth. When added to a regeneration medium at 1 mg/L both paclobutrazol and uniconazole reduced the percentage of cultures that formed roots, as well as the mean number of roots per culture. In contrast, GA₃ increased root formation and counteracted the inhibitory effects of the triazoles on rooting. The addition of triazoles or GA₃ to the regeneration medium reduced the formation of green meristematic nodules, which are precursors of shoots in moth bean callus. When callus was grown in the presence of either paclobutrazol or uniconazole, subsequent root and green meristematic nodule formation were reduced upon transfer to a growth regulator-free regeneration medium. The results of this study indicate that exposure of moth bean callus tissue to micromolar concentrations of triazoles or GA₃ can significantly alter in vitro growth and differentiation.     

Cytokinin Habituation in Juvenile and Flowering Tobacco

The possible link between cytokinin and flowering was examine in tobacco. The degree of cytokinin autotrophy and the competence for cytokinin habitution were measured in callus derived from pith tissue of Nicotiana tabacum cvs. H425 an W38.Explants were taken from internodes at all positions up the stem in juvenile and mature plants. To test whether the competence of cells to form flowers was linked with crtokinin habituation, thin cell layer explants from comparable internodes were tested for their ability to form floral buds. Callus derived from the upper parts of plants showed cytokinin autotrophy whether or not the plants were flowering. Flower buds were formed only on thin cell layer explants from the upper part of plants which were already flowering. Cytokinin habituation and competence to flower are therefore not directly linked although cytokinin habituation could be a prerequisite for meristematic activity and for flowering. Pith from internodes in the lower half of mature pants formed callus which was cytokinin-dependent, although these same internodes in juvenile plants were cytokinin-autotrophic. The ability to form cytokinin-autotrophic callus was therefore greatest in the meristematic regions and was lost as the pith cells aged. Competence to habituate after 35 °C treatment was also shown by pith callus from a few internodes in the middle of the plant below those already forming cytokinin-autotropic callus.     

培养基清除结皮对蛹虫草原基形成的影响

为探讨培养基清除结皮对蛹虫草原基的形成影响,提高食用真菌蛹虫草的培养产量和品质,在无菌条件下,用无菌刀切除长满菌丝的培养基上表面部分,在温差和光周期刺激下培养,考察菌丝扭结和子实体生长情况,并检测蛹虫草子实体虫草素、虫草酸和多糖含量。结果显示培养基清除结皮组蛹虫草子实体生长快、颜色较深、易形成孢子头,其虫草素和腺苷含量显著升高(P<0.05),但虫草多糖含量变化不显著(P>0.05)。培养基清除结皮可显著地促进蛹虫草原基的形成,提高子实体产量和品质。     

Comparative study of somatic embryogenesis from immature and mature embryos and organogenesis from leaf-base of Triticale

Immature and mature zygotic embryos of hexaploid, Triticale var. DT-46 formed an embryogenic callus, with subsequent somatic embryo formation upon subculture to MS (Murashige and Skoog, 1962) or N₆ (Chu et al., 1975) nutrient medium supplemented with various concentrations (9.0–22.5 M) of 2,4-dichlorophenoxyacetic acid (2,4-D). Of the two types of explants, embryogenic tissue from immature embryos responded at a higher frequency, to form somatic embryos over the callus surface. Leaf-base segment cultured on to 2,4-D-containing medium formed a tissue which did not form somatic embryos and instead differentiated into shoot-buds. N₆ medium proved to be more effective than MS in support of somatic embryogenesis or shoot-bud formation. Regeneration of plantlets occurred on 2,4-D-free basal medium. These in vitro-formed plantlets were successfully transferred to soil and set seed.     

番茄叶组织培养中愈伤组织形成和器官发生的细胞学和微形态学研究

以番茄叶外植体为材料,研究了不同的生长素和细胞分裂素及其浓度配比对叶外植体培养行为的影响;同时,利用细胞学和扫描电子显微镜技术观察了愈伤组织形成和器官发生过程。结果表明,不同种类及浓度配比的生长素和细胞分裂素直接影响愈伤组织的物理状态、大小和形成的速度以及器官分化的频率和速度。叶外植体切口处的叶肉细胞,维管薄壁细胞和维管束上方的少数叶肉细胞首先启动脱分化而开始分裂,这些细胞的活跃分裂和分化导致在外植体表层形成由薄壁细胞、维管组织和无分化状态的表层分生细胞团组成的愈伤组织。而不定芽则通过愈伤组织的薄壁细胞再次脱分化和再分化活动而形成,为“外起源”。认为存在由植物激素决定的“无分化活性”和“有分化活性”二种性质的愈伤组织。     

Erythropoiesis and osteogenesis (I. The interaction of the reparative processes of bone and hematopoietic tissues)

The dynamics of erythropoiesis during the bone restoration and under the conditions of perturbing influence: fracture and hemolytic anemia have been studied in the experiment. It is found that under the conditions of callus formation the process of proliferation and differentiation of red cells in the bone marrow is inhibited. The observed effect of erythropoiesis inhibition may be caused by the intercellular interaction of regenerating tissues in their "struggle" for microphages, which, while being the centre of the erythroid insula secure the maturation of erythroid precursors, and at the same time they can take part in the bone formation process.     

Role of 2,4-dichlorophenoxyacetic acid and of myoinositol in the formation of the callus on excised roots ofSolanum laciniatum AIT

Exeised roots ofSolanum laciniatum Ait. grown in vitro in a liquid medium will form the typical rich white callus with a high water content. Its formation is made possible by the presence of 2,4-dichlorophenoxyacetic acid and niyo-inositol in the nutrient medium. Choline, ascorbic acid, riboflavin, calcium pantothenate and biotin are inactive. A mixture of thiamine, pyridoxine and nicotinic acid will induce only slight proliferation.     

Predicting the external formation of a bone fracture callus: an optimisation approach

The formation of a fracture callus in vivo tends to form in a structurally efficient manner distributing tissues where mechanical stimulus persists. Therefore, it is proposed that the formation of a fracture callus can be modelled in silico by way of an optimisation algorithm. This was tested by generating a finite element model of a transversal bone fracture embedded in a large tissue domain which was subjected to axial, bending and torsional loads. It was found that the relative fragment motion induced a compressive strain field in the early callus tissue which could be utilised to simulate the formation of external callus structures through an iterative optimisation process of tissue maintenance and removal. The phenomenological results showed a high level of congruence with in vivo healing patterns found in the literature. Consequently, the proposed strategy shows potential as a means of predicting spatial bone healing phenomena for pre-clinical testing.     

Biochemical evaluation of the morphogenetic potential of wheat callus cells in vitro

Morphogenetic processes in immature embryos of wheat (Triticum aestivum L.) were investigated using a molecular marker for meristematic cells of cereals (proliferative antigen of meristem initial cells, PAIC). The used genetic model comprised a series of almost isogenic lines of wheat alternative by the alleles of dwarfing genes (RhtB1c, RhtB1b, and Rht14) and the original cv. Saratovskaya 29. The Rht genetic system was found to affect the level of PAIC in the wheat callus cells during callus formation and subsequent regeneration. We found differences in the level of PAIC at certain stages of culturing and a general trend of its content in the course of callus formation and secondary differentiation in the callus tissue. Possible role of PAIC as a marker of meristematic centers within the callus tissue and the prospect of its use in breeding as an additional criterion for estimation of morphogenetic ability of the newly produced lines of wheat are discussed.     

Ontogeny of embryogenic callus in Medicago truncatula: the fate of the pluripotent and totipotent stem cells

Background and Aims

Understanding the fate and dynamics of cells during callus formation is essential to understanding totipotency and the mechanisms of somatic embryogenesis. Here, the fate of leaf explant cells during the development of embryogenic callus was investigated in the model legume Medicago truncatula.

Methods

Callus development was examined from cultured leaf explants of the highly regenerable genotype Jemalong 2HA (2HA) and from mesophyll protoplasts of 2HA and wild-type Jemalong. Callus development was studied by histology, manipulation of the culture system, detection of early production of reactive oxygen species and visualization of SERK1 (SOMATIC EMBRYO RECEPTOR KINASE1) gene expression.

Key Results

Callus formation in leaf explants initiates at the cut surface and within veins of the explant. The ontogeny of callus development is dominated by the division and differentiation of cells derived from pluripotent procambial cells and from dedifferentiated mesophyll cells. Procambium-derived cells differentiated into vascular tissue and rarely formed somatic embryos, whereas dedifferentiated mesophyll cells were competent to form somatic embryos. Interestingly, explants incubated adaxial-side down had substantially less cell proliferation associated with veins yet produced similar numbers of somatic embryos to explants incubated abaxial-side down. Somatic embryos mostly formed on the explant surface originally in contact with the medium, while in protoplast microcalli, somatic embryos only fully developed once at the surface of the callus. Mesophyll protoplasts of 2HA formed embryogenic callus while Jemalong mesophyll protoplasts produced callus rich in vasculature.

Conclusions

The ontogeny of embryogenic callus in M. truncatula relates to explant orientation and is driven by the dynamics of pluripotent procambial cells, which proliferate and differentiate into vasculature. The ontogeny is also related to de-differentiated mesophyll cells that acquire totipotency and form the majority of embryos. This contrasts with other species where totipotent embryo-forming initials mostly originate from procambial cells.Key words: Callus, dedifferentiation, leaf veins, Medicago truncatula, pluripotency, procambium, protoplasts, reactive oxygen species, SERK, somatic embryogenesis, stem cells, totipotency     

Histoincompatibility reactions in the hydrocoral Millepora dichotoma

The xenogeneic- and allogeneic immunological specificity of the hydrocoral Millepora dichotoma has been investigated. Xenogeneic histoicompatibility reactions have been observed between this hydrocoral and a series of species belonging to the Demospongiae and to the Anthozoa (both Hexacorallia and Octocorallia). The xenogeneic histoincompatibility reactions proceed in the following sequence: (a) Species-unspecific sensitization; (b) necrosis formation, which is very likely due to an autolytic process; (c) callus formation, due to an hyperplastic growth of stolons; and (d) formation of a contact barrier in form of a barrier layer or a restored stolonial layer. Allogeneic histoincompatibility reactions are restricted to those regions of the coral which are interspersed with polyps; allogenic fusion is observed between branches, with a high density of polyps and the “foot”-region, which is characterized by a low polyp density.     

甲基磺酸乙酯对水稻花药离体培养效应的研究

本文以粳稻“105”、籼稻“华03”和“鄂早6号”为实验材料,研究了不同浓度化学诱变剂EMS处理对离体培养水稻花药中花粉细胞脱分化与再分化和培养初期花药呼吸作用的影响。结果表明,低浓度EMS能显著提高花药愈伤组织诱导率,高浓度EMS则有明显的抑制作用。EMS对培养初期花药呼吸作用的影响与花药愈伤组织诱导率之间存在明显的平行关系。