Esteblishment and characterization of the line of Fagopyrum tataricum morphogenic callus tolerant to aminotriazole

It is shown that the inhibitor of catalase 3-amino-1,2,4-triazole (AT) at the concentration of 2 mM affected differently growth of tartary buckwheat (Fagopyrum tataricum (L.) Gaertn.) callus lines differing in the morphogenecity. In some cases, AT induced the death of a great fraction of non-morphogenic callus cells; in other cases, it inhibited growth and reduced viability of morphogenic callus. The death of non-morphogenic callus cells may be related to the accumulation of hydrogen peroxide and the development of oxidative stress. After morphogenic callus treatment with AT, we obtained a modified line 1?C8 AT tolerant to AT and differing from the original line in morphology, cell sizes, proliferative activity, and some biochemical characteristics. In the 1?C8 AT line, catalase was sensitive to this inhibitor action. In this case, catalase inactivation with AT did not increase the content of hydrogen peroxide in the cells, which may indicate the compensatory functioning of another/others mechanism(s) destroying hydrogen peroxide.     

Isolation of paraquat-tolerant mutants from tomato cell cultures

Summary Tomato callus clones selected for the ability to grow at paraquat concentrations lethal to wild-type cells were found at an approximate frequency of 5×10^–8 per viable cell. Diploid plants were regenerated from nine of the nineteen paraquat-tolerant callus clones isolated. Although some of these plants appeared normal, others had altered morphology and reduced vigor and fertility. New callus cultures initiated from these regenerated plants typically had at least a 30-fold increase over the wild type in tolerance to paraquat. Tests on callus from sexual progeny showed that the paraquat-tolerant phenotypes of clones PQT⁴, PQT⁶, and probably also PQT¹³ resulted from dominant nuclear mutations, but the number of loci involved is not yet known. Paraquat spray experiments indicated that slight paraquat-tolerance was expressed at the plant level in PQT¹³, but not in any of the other clones tested.     

Changes in nucleus, nucleolus and cell size accompanying somatic embryogenesis of Theobroma cacao L. II. Relation between basic protein content and size of nucleus, nucleolus and cell

Embryo formation from callus of Theobroma cacao L. was associated with the changes in relationship between nuclear, nucleolar and cell sizes and the content of basic proteins (FG-FCF-stained). Together with the increase in nuclear size of callus and proembryo cells the increase in the amount of nuclear basic proteins was found. In the callus cells the increase in nucleolar protein content exceeded that in nucleolus size, which led to the rise in basic protein concentration in the nucleolus. However, in the early stage of embryogenesis the increase in protein content was not so marked as that in callus, which indicated that embryogenesis involved a decrease in concentration of nucleolar basic proteins. Differences between callus and proembryo cells were also observed in the concentration of cytoplasmic proteins. The increase in size of callus cells was the same as the increasing amount of cytoplasmic proteins. In proembryos a significant increase in cell size was accompanied by only slight changes in cytoplasmic proteins. The stimulation of embryogenesis by 2,4-D resulted in an increase of nuclear concentration of basic proteins in proembryos. The intensification of embryogenesis involved the decrease of the concentration of nucleolar proteins together with the increase in concentration of basic cytoplasmic proteins.     

Changes in nucleus, nucleolus and cell size accompanying somatic embryogenesis of Theobroma cacao L. I. Relationship between DNA and total protein content and size of nucleus, nucleolus and cell

There was a linear relation between an increase in DNA content and size of nuclei, nucleoli and cells in callus and proembryos (Theobroma cacao L.). In callus the increase of DNA content was accompanied by proportional increase in nuclear size whereas in proembryos the increase in nuclear size did not match the increasing amount of DNA. The stimulation of embryogenesis by 10(-2) mg/l 2,4-D was associated with increase in nuclear and nucleolar size and with decrease in cell sizes. Inhibition of embryogenesis by 1.0 mg/l 2,4-D+10% coconut water did not change nuclear size, but increased cell size in relation to the control. The process of embryo formation was accompanied by changes in relationship between nuclear, nucleolar and cell size and the total (DNFB-stained) proteins content. In callus as well as in proembryo the increase in total protein content in nucleus was not equivalent to the increasing sizes of nuclei which leads to the decrease in nuclear protein concentration. Similar situation was observed for nucleoli. Differences were found in the concentration of cytoplasmic proteins between the callus and proembryo cells. The stimulation of embryogenesis by low concentration of 2,4-D resulted in decrease in concentration of total proteins in nuclei and nucleoli and the increase in cytoplasm.     

Histochemical and immunohistochemical identification of laticifer cells in callus cultures derived from anthers of Hevea brasiliensis

Laticifers are highly specialized cells present in over 20 plant families. They are well defined in planta. In vitro development of laticifers was also observed in some plants, but uncertain in the callus cultures of rubber tree, one of the most economically important latex producing plants. In the present study, we provide evidence that laticifer cells present in the callus cultures of rubber tree by histochemical and immunohistochemical studies. They present in the callus mainly as separate non-elongated form, a novel morphology different from the morphology of laticifer cells in planta, excluding their origin from explants. The occurring frequency of laticifer cells in the callus was genotype-dependent and negatively correlated with the somatic embryogenetic ability, suggesting that the presence of laticifer cells in the callus inhibit somatic embryogenesis in tissue culture of rubber tree. The genotypes PR107, RRIM600, Reyan8-79, and Reyan7-33-97 with lower embryogenetic ability compared to Haiken 2 had more laticifer cells, and laticifer clusters were only observed in these genotypes.     

Floral morphogenesis in thin-layer tissue cultures of Nicotiana tabacum

The morphological changes in thin-layer tissues of Nicotiana labacum L. cv. Samsun, cultured on Murashige and Skoog medium with 1 μ M each of naphthalene acetic acid (NAA) and benzyladenine (BA), were studied during the first 8 days of culture with light and scanning electron microscopy. The first three days of culture arc characterized by enlargement of all cells and cell divisions starling in the cortical parenchyma cells adjacent to the medium. Between days 3 and 6, epidermal and/or subepidermal cells start to divide, resulting in division centers, which lead to flower bud formation. The hormones NAA and BA in different concentrations affect the formation and distribution of flower buds, bud morphology and callus formation. BA influences particularly bud formation and bud morphology, while NAA affects callus formation in particular. In addition, polarity may occur in the formation of both callus and flower buds, the degree of which depends upon the hormone concentrations.     

Nuclear DNA content and phytohormone requirements of normal, crown gall and habituated tissues of Nicotiana tabacum var. White Burley

Determination of the nuclear DNA content of leaves and normal, habituated and Crown gall callus tissues of Nicotiana tabacum var. White Burley were performed using cytophotometry on Feulgen stained preparations. Several aspects concerning the reliability of the Feulgen technique for DNA determinations were investigated.Crown gall callus tissue used in this study had both a higher nuclear DNA content and chromosome number than normal callus (3.2C versus 2.5C). Both have a higher DNA content than the diploid tobacco leaf cells (2C).The normal callus tissue failed to grow on medium without indole acetic acid and kinetin when cultured in tubes. From this normal callus two habituated lines growing without both phytohormones were selected by culturing the normal callus first in the absence of either indole acetic acid or kinetin. Changing the culture conditions of the normal callus by using culture flasks instead of tubes resulted in a remarkably faster growth rate of the tissue. This was accompanied by an acquisition of the habituation characteristics since it was possible now to grow this tissue also directly on medium lacking both phytohormones. All habituated tissues showed a higher nuclear DNA content compared to the normal callus tissue from which they were derived. Interestingly, one of the tissues acquired a nuclear DNA content not different from that of Crown gall tissue. By changing the culture conditions of Crown gall callus tissue no concomitant change in nuclear DNA content occurred.The results suggest a correlation between the acquisition of a special chromosome complement and the loss of phytohormone requirement resulting in autonomous growth.     

A morphological and histological comparison of the initiation and development of pecan (Carya illinoinensis) somatic embryogenic cultures induced with naphthaleneacetic acid or 2,4-dichlorophenoxyacetic acid

Summary Somatic embryos produced in vitro may exhibit structural abnormalities that affect their subsequent germination and conversion into plants. To assess the influence of auxin type on embryo initiation and development, a morphological and histological comparison was made of pecan (Carya illinoinensis) somatic embryogenic cultures induced on media with naphthaleneacetic acid or 2,4-dichlorophenoxyacetic acid (2,4-D), using light and scanning electron microscopy. Both auxins promoted enhanced cell division, particularly in subepidermal cell layers. However, notable differences were observed in mitotic activity, location of embryogenic cell proliferation, epidermal continuity, callus growth, and embryo morphology. Cultures induced on naphthaleneacetic acid had embryogenic regions composed of homogeneous, isodiametric, meristematic cells. Embryos derived from these cultures generally had a normal morphology, were single, and had a discrete apical meristem. In contrast, tissues induced on media with 2,4-D had more intense and heterogeneous regions of cell division. Proliferating cell regions were composed of meristematic cells interspersed with callus and involved more extensive regions of the mesophyll. Marked callus proliferation caused epidermal rupture in some areas. Embryos induced on medium with 2,4-D had a higher incidence of abnormalities that included fasciated, fan-shaped, and tubular embryos. Defined apical meristems were often lacking or partially obliterated due to callus proliferation. The heterogeneous, often intensive proliferation of cells in cultures induced with 2,4-D may interfere with normal patterns of embryo development.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - BAP 6-benzylaminopurine - NAA naphthaleneacetic acid - SEM scanning electron microscopy     

Chromosome number and DNA content in callus culture ofCostus speciosus (Koen.) Sm.

Karyological changes in the callus tissue ofCostus speciosus (Koen.) Sm. at different ages have been analysed both by counting chromosome number and quantitating DNA content through cytophotometry. The cultures had been established from the tuber and maintained in modified Murashige and Skoog's basal medium (Physiol. Plant. 15: 473–497, 1962) supplemented with 2,4-D, NAA and BAP. Abnormality in chromosome behaviour leading to the formation of hypo- and hyperdiploid cells along with the diploid cells was observed. The abnormalities reached an optimum at different ages of the callus followed by a decline which varied amongst three populations. The frequency of hyperdiploid cells was higher than that of the hypodiploids. The role of endomitotic replication as well as non-disjunction of chromosomes resulting in the variation in chromosome number has been suggested. This was supported by the nuclear DNA value in successive passages. A difference in average amount of nuclear DNA with increase in age of the callus was recorded and the value also differed amongst these populations.     

Fine Structure of Parenchymatous and Differentiated Pinus radiata Callus

The fine structure of Pinus radiata D. Don callus before andafter differentiation into stem-like tissues has been examinedwith the electron microscope. In callus prior to differentiation(here called parenchymatous callus) the cells accumulate tanninsas they age and are quite distinct from the cells of differentiatedcallus. In the latter, cambium, phloem and xylem cells may beidentified by their general morphology and by their ultrastructuralfeatures. Differentiation into a true stem-like structure is,however, incomplete in that the tissues are not uniformly oriented,and parenchyma cells of the rays and phloem contain chloroplasts.The tracheids also show unusual differentiation in that borderedpits form over their entire surface and may be of two types.The reasons for these variations are discussed.     

水稻愈伤组织内部胚性细胞的形成及发育

发育成胚状体的水稻愈伤组织表面胚性细胞, 在继代过程中被非胚性细胞旺盛的分裂所包围, 渐渐形成内部胚性细胞。其形态结构与表面胚性细胞相同, 但周围缺乏表面细胞下面的一层至几层含丰富的淀粉粒的细胞。内部胚性细胞形成团后先在以处形成突起, 产生根冠原, 逐渐形成根而突出愈伤组织。内部胚性细胞可向四周同时但不同步形成根冠原。未见芽或胚状体从内部胚性细胞产生。推测胚性愈伤组织失支胚胎发生能力及分化能力可能部分地与胚性细胞部分裂或分裂不旺盛、而非胚性细胞分裂旺盛从而使胚性细胞被包围、稀释有关。     

GFP-FABD2和GFP-MBD标记蛋白对拟南芥悬浮细胞培养及应激响应能力的影响

以转GFP-FABD2和GFP-MBD基因的拟南芥为材料,研究了GFP-FABD2和GFP-MBD这两种细胞骨架标记蛋白对拟南芥愈伤组织诱导、悬浮细胞培养及应激响应能力的影响.结果表明:(1)GFP-MBD标记蛋白延长愈伤的出愈时间,改变愈伤形态,使转基因拟南芥种子的出愈量减少为野生型的59%、悬浮细胞的长短轴比缩小为1.20±0.21、第7天细胞活力下降为0.66±0.09,影响细胞的生长曲线.(2)GFP-FABD标记蛋白虽对愈伤生长影响不大,但却使悬浮细胞的长短轴比显著增加为2.49±1.18、第7天细胞的活力下降为0.87±0.06,造成悬浮细胞生长曲线的改变.(3)通过调整培养条件的激素水平,以上两种细胞骨架标记蛋白对悬浮细胞生长的影响可以得到修复.(4)检测优化条件下培养的GFP-FABD2或GFP-MBD悬浮细胞对温度、渗透压、机械应力等环境改变的应激响应能力,结果未发现与野生型有明显区别.     

Relative DNA content of cells in Festuca Arundinacea and Dactylis Glomerata calli of different ages

Experiments were conducted to determine changes in nuclear DNA content in cells of tall fescue (Festuca arundinacea) and orchardgrass (Dactylis glomerata) embryo-derived calli ranging in age from 3 to 24 weeks. Calli were induced and maintained on a modified Murashige-Skoog medium containing 22.6 μM of 2,4-dichlorophenoxyacetic acid. Calli were divided with one pieces being fixed in 3:1 ethanol: acetic acid and the other transfered too fresh maintenance medium at 3, 6, 9, 12, 18 and 24 weeks after initial plating of mature embryos. Fixed calli were processed through a cold hydrolysis technique and Feulgen stained. Stained callus pieces were squashed in 45% acetic acid and relative DNA contents were measured with a microscope cytophotometer. Results showed predominately 2C nuclei in calli of both species regardless of callus age. More cells with high DNA contents (4C) were found in orchardgrass than in tall rescue calli. The proportion of 2C cells increased with increasing callus age, especially in tall fescue. Cells of various sizes and shapes were observed in calli of both species and very large cells with small (2C) nuclei were common in callus tissue of all ages. The mitotic index was low and decreased with increasing callus age, especially in tall fescue. Nuclei with 2C---4C, 4C---8C, or less than 2C, amounts of DNA may be due to anuploidy.     

Ultrastructural Changes of Rice Pollen Callus Cell Grown on Differentiation Medium

A comparative observation on the rice pollen callus cultured on the medium supplemented with 2 mg/L 2,4-D and omitted 2,4-D but contained 0.5 mg/L kinetin and 0.2 mg/L NAA respectively was made by electron microscope. The callus cells when transferred to the medium containing kinetin show some changes at ultrastructural level. The numbers of mitochondria, plast and ribosome show an increase in some epidermal cells which kept an ability of active division and may be differentiated into a primordial bud. The storage materials such as lipid bodies and starch grains show sharp decrease or disappearance and the degree of vacuolation decrease in the parenchyma cells of internal callus. Besides vessel differentiation, some sieve elements appeared in the callus. The types of callus cell became various and some electron-dense cell occurred. Although above-mentioned ultrastructural changes appeared in callus cells grown under differentiation condition were true but we do not think those are specific mark for differentiating cell. More work is needed with cytochemistry and molecular biological methods to study callus cell differentiation.     

Histological-anatomical studies of the structure of the organogenic callus inPapaver somniferum L.

Organogenic callus cultures ofPapaver somniferum L. were studied with the aim of describing the morphology of the callus and observing the changes occurring during differentiation and induction of organogenesis. The morphology of the cells and the formation of meristemoid areas were studied on a light microscopic level. Histological evidence showed that from the inner meristematic centres, protracheal elements are differentiated, from the surface meristematic centres meristemoids are formed and therefrom green leaf-like organoids.     

Calreticulin mRNA and protein are localized to protein bodies in storage maize callus cells

Maize callus cells possess numerous protein bodies which develop as sub-compartments of the endoplasmic reticulum. We localized maize calreticulin mRNAs and protein in maize callus cells using in situ hybridization and immunocytochemistry. Calreticulin mRNAs were selectively targeted to the endoplasmic reticulum (ER) subdomains surrounding protein bodies. Profilin mRNAs, used as a positive control for in situ hybridization experiments, showed distinct and rather diffuse localization pattern. Using both, immunofluorescence and immunogold electron microscopy localization techniques, calreticulin was found to be enriched around and within protein bodies in maize callus storage cells. As a positive control for reticuloplasmins, HDEL antibody revealed labelling of protein bodies and of the nuclear envelope. The identity of protein bodies was confirmed by specific binding of an α zein antibody. These data suggest that calreticulin mRNA is targeted towards protein body forming subdomains of the ER, and that calreticulin is localized and enriched in these protein bodies. The possibility that calreticulin plays an important role in zein retention within the ER and/or its assembly and packaging into protein bodies during protein body biogenesis in maize callus is discussed.     

Organogenesis and fine structure in megagametophyte callus lines of Picea abies

Differentiation and fine structure were studied in 63 callus lines originating from the haploid megagametophyte of Picea abies (L.) Karst. Developing cones were collected from 27 trees growing in 13 localities in Finland. Vernalization of cones for 12–42 days at 4°C was optimal for callus initiation from the immature megagametophyte (primary endosperm). Five combinations of media based on the macronutrient elements of Chu et al. (1975; Sci. Sin. 18: 659–668) and the micronutrient elements and vitamins of Murashige and Skoog were tested for callus induction, growth and differentiation. Only about 1.5% of the megagametophytes produced subculturable callus (which may be partly due to the high frequency of lethal genes), although in certain mother trees callus production was as high as 20%. In most of the trees sampled, polyamines could not replace casein hydrolysate and glutamine in induction of megagametophyte callus. About half of the originally haploid, diploid and mixoploid callus lines were able to differentiate. A combination of three polyamines (putrescine 0.25, spermidine 0.1 and spermine 0.025 m M ) favoured development of roots. In five callus lines shoots and roots developed in the same piece of callus, but these organs usually had no connection with each other. The fine structure of the callus cells was normal, but their starch stores were rather abundant. Mesophyll cells of needles differentiated from originally haploid callus had chloroplasts with fairly well-developed grana. Secondary metabolites were observed in the vacuoles of some callus cells and in organ initials. Plasmodesmata were very rare in callus cells but they were characteristic of those of the needles. The electron microscope observations showed that the poor capacity for differentiation of P. abies callus cultures was not due to cytological instability.     

Karyotype stability in long-term callus derived plants ofCrepis tectorum L.

The study of in vitro growth of Crepis tectorum revealed 100 % callusing and 40 % plantlet regeneration. The root and leaf used as explants showed the normal diploid (2n=8) chromosome constitution. In one month old culture 95 % callus cells were diploid. The callus maintained in 2,4-D 1 mg 1-1 for two years showed 62 % diploid, 5 % tetraploid and 33 % hyperdiploid cells. The differentiation of shoot occurred in two year old calli after subeulturing in 2 mg I-1 BAP and the potentiality of regeneration was retained for more than one year. The leaf-tips of regenerated plants were homogeneous and identical to the donor plant both in number and morphology of chromosomes.     

The Effects of Agitated Liquid Medium on in vitro Cultures of Hevea brasiliensis

The initiation and prolonged growth of callus, from stem explants of young plants of Hevea brasilienies on solid medium yielded a heterogeneous callus, with areas which are the result of compact growth interspersed with brown necrotic tissue and soft white tissue formations. Subculturing this callus (O callus) to agitated liquid medium and returning it to solid medium resulted in the production of a homogeneous friable and rapidly growing callus (Rl callus) The two established lines O and Rl have remained stable over one year in culture and differ in gross morphology, anatomy, growth and auxin content. Both were maintained on Murashige and Skoog's medium, with 2 mg/1 2,4-D and 0.5 mg/I kinetin. R 1 but not O showed enhanced growth at the lower 2,4-D level of 0.2 mg/l: both lines failed to continue growing when 2,4-D was omitted. It is suggested that the changes resulting from subculture in agitated liquid medium are related to those undergone by callus cultures which become habituated. Thus the Rl callus line is regarded as partially habituated. Subculture in agitated liquid medium also resulted in the production of large numberr of polyploid cells but these did not persist over the long periods of subsequent growth on agar medium, Enhanced auxin production by the establihed Rl callus line was thus observed in the absence of a detectable level of polyploidy.