Artichoke Leaf Morphology and Surface Features in Different Micropropagation Stages

Artichoke (Cynara scolymus L.) leaf size and shape, glandular and covering trichomes, stomatal density, stomata shape, pore area and epicuticular waxes during micropropagation stages were studied by scanning electron microscopy (SEM) and morphometric analysis with the aim to improve the survival rate after transfer to greenhouse conditions. Leaves from in vitro shoots at the proliferation stage showed a spatular shape, ring-shaped stomata, a large number of glandular trichomes and juvenile covering hairs, but failed to show any epicuticular waxes. Leaves from in vitro plants at the root elongation stage showed a lanceolated elliptic shape with a serrated border, elliptical stomata, decreased pore area percentage, stomatal density, and mature covering trichomes. One week after transfer to ex vitro conditions, epicuticular waxes appeared on the leaf surface and stomata and pore area were smaller as compared to in vitro plants. Artichoke acclimatization may be improved by hormonal stimulation of root development, since useful morphological changes on leaves occurred during root elongation.     

A comparison of in vitro with in vivo flowering in Gentian

Young nodal explants of Gentiana triflora Pall. var. axillariflora were cultured in a woody plant medium (WPM) supplemented with B5 vitamins, sucrose (3%) and kinetin (2.0 μM). A novel observation was made in that in vitro flowering occurred following development of the axillary bud of the cultures. A comparison was made between in vitro and in vivo flowers. Although smaller in size, the in vitro flowers were morphologically comparable to the in vivo ones. Flowers from both sources were semi-opened or not opened. The colour of the in vitro flowers was paler than those in vivo. Stigma development was generally poor in both in vitro and in vivo flowers. Pollen viability was over 90% in both types of flowers. About 11% and 34% of pollen from in vitro and in vivo flowers, respectively, germinated on WPM containing 100 g l⁻¹ sucrose solidified with 10 g l⁻¹ agar. Hand pollination of stigma could raise viable seed production in in vivo-flowering plants from 0.3 o/o (i.e. without aided pollination) to 3% but none in in vitro-flowering plants where only seed-like structures, probably unfertilised ovules, were found. This revised version was published online in August 2006 with corrections to the Cover Date.     

Variation in potato microplant morphology in vitro and DNA methylation

Heterotrophic and autotrophic culture in agar and in polyurethane foam, the latter used as an alternative tissue support to agar, resulted in potato microplants with different in vitro morphologies. The microplants were visually characterised in terms of their relative developmental maturity, by comparing the respective leaf shapes in vitro with ontogenetic differences in leaf shape in glasshouse-grown potato plants. Cytosine methylation in the DNA of microplants of the different morphologies was determined using a method based on the AFLP technique but employing methylation-sensitive restriction enzymes (MSAP analysis) to test the hypothesis that DNA methylation could be used to characterise differences in microplant development in vitro. In three of the four treatments there was a good correlation between the visual assessment of relative morphological maturity and DNA base methylation levels. In these microplants there was increased DNA methylation in the leaves with mature leaf morphology represented by a decreased number of restriction fragments. The fourth in vitro morphology had the most juvenile leaf shape but did not have the predicted level of DNA methylation, having a relatively low number of restriction fragments. Subtraction analysis was used to discriminate the fragments that were unique to the juvenile and mature in vivo leaf morphologies. Comparison of the fragment patterns from the microplants with the latter reference profiles, confirmed the relationship with the total DNA methylation as detected by MSAP analysis, that is, the number of common fragments with the juvenile or mature in vivo leaf profiles, respectively. However, none of the fragment profiles, while sharing some common bands at random, was identical to any other; or to that of either the juvenile or mature in vivo leaf. The anomalous relationship of the microplants with most juvenile leaf shape and highest DNA methylation was confirmed. The measurement of DNA methylation in in vitro plants is discussed in the context of the development of a method to assess the quality of microplants produced by different in vitro protocols.     

In vivo and in vitro investigation of salt tolerance in three anthocyaninless mutants in tomato (Lycopersicon esculentum Mill.)

Growth responses of a tomato cultivar Ailsa Craig and the ah-, aw- and bls-isogenic/near isogenic lines (IL/NIL) from it were evaluated and compared at cotyledons stage under salt treatment in vivo and in vitro experiments. No differences in hypocotyl and root growth responses were detected between the anthocyanin-containing and the anthocyaninless lines within the in vivo experiments. The anthocyaninless mutants, (except in some cases the bls mutant), exhibited higher callogenic and shoot-forming capacity on both, control and salinized media. It was concluded that for this reason it would be difficult to determine the relationship between the in vivo and in vitro responses of the lines studied and as well as to evaluate the usefulness of the in vitro method in testing these lines for salt tolerance.     

“HAIRY CANOLA” – Arabidopsis GL3 Induces a Dense Covering of Trichomes on Brassica napus Seedlings

Transformation with the Arabidopsis bHLH gene 35S:GLABRA3 (GL3) produced novel B. napus plants with an extremely dense coverage of trichomes on seedling tissues (stems and young leaves). In contrast, trichomes were strongly induced in seedling stems and moderately induced in leaves of a hairy, purple phenotype transformed with a 2.2 kb allele of the maize anthocyanin regulator LEAF COLOUR (Lc), but only weakly induced by BOOSTER (B-Peru), the maize Lc 2.4 kb allele, or the Arabidopsis trichome MYB gene GLABRA1 (GL1). B. napus plants containing only the GL3 transgene had a greater proportion of trichomes on the adaxial leaf surface, whereas all other plant types had a greater proportion on the abaxial surface. Progeny of crosses between GL3⁺ and GL1⁺ plants resulted in trichome densities intermediate between a single-insertion GL3⁺ plant and a double-insertion GL3⁺ plant. None of the transformations stimulated trichomes on Brassica cotyledons or on non-seedling tissues. A small portion of bHLH gene-induced trichomes had a swollen terminal structure. The results suggest that trichome development in B. napus may be regulated differently from Arabidopsis. They also imply that insertion of GL3 into Brassica species under a tissue-specific promoter has strong potential for developing insect-resistant crop plants. Electronic Supplementary Material Supplementary material is available for this article at and is accessible for authorized users.     

An Assessment of Genetic Integrity of Micropropagated Plants of Plumbago Zeylanica by RAPD Markers

Clones of Plumbago zeylanica were micropropagated using nodal culture. The application of random amplified polymorphic DNA (RAPD) in assessing the genetic integrity of the micropropagated plants was evaluated by polymerase chain reaction. Twenty arbitrary decamers were used to amplify genomic DNA from in vitro and in vivo plant material to assess the genetic fidelity. All RAPD profiles from micro-propagated plants were monomorphic and similar to those of field grown mother plants. No polymorphism was detected within the micropropagated plants.     

Leaf anatomy of <Emphasis Type="Italic">Cynara scolymus</Emphasis> L. in successive micropropagation stages

Summary Leaf structure along the successive stages of Early French artichoke Cynara scolymus L. micropropagation was characterized using light and transmission electron microscopy. The mesophyll presents disorganized spongy and palisade parenchyma with large intercellular spaces and a few small chloroplasts in the leaves of plants cultured in vitro. In addition, both epidermal surfaces of such leaves invariably show a cell wall of the same thickness with a very thin cuticle and open stomata. In the root differentiation stage in vitro, structural changes take place in the leaves that are favorable for survival in the acclimatization stage: conspicuous cuticle, greater cell wall thickness, functional stomata, better mesophyll organization, developed vascular bundles, and the presence of sclerenchymatous tissue are observed. These features found in later in vitro stages are maintained in the following ex vitro stages, some becoming more evident. Our results demonstrate that the structural changes required to ensure appropriate acclimatization of micropropagated artichoke plants begin at the root differentiation stage, which can reduce in vivo acclimatization time and achieve greater survival of transferred plants.     

Alterations in growth and crassulacean acid metabolism (CAM) activity of in vitro cultured cactus

Unlike C-3 plants, cacti possess a crassulacean acid metabolism (CAM) physiology that can alter the pattern of carbon uptake and affect plant growth under artificial environmental conditions, especially in tissue culture. In vitro-derived plantlets of Coryphantha minima grew 7-fold larger than plants cultured under similar ex vitro conditions. Growth regulators incorporated into the culture media during shoot proliferation stage of micropropagation had a strong influence on this increased growth. Other important factors that contributed to increased growth under in vitro conditions were high relative humidity and sugar in the culture medium. An analysis of gas exchange and daily fluctuations of malic acid levels revealed an increase in net photosynthetic rate, in terms of carbon assimilation, by in vitro plants compared with that of ex vitro plants. This stimulated photosynthesis in the presence of an external carbon source was unexpected but apparently true for cacti exhibiting CAM physiology. Unlike CAM plants grown in ex vitro conditions, net CO₂ uptake by in vitro-cultured cacti occurred continuously in the light as well as the dark. Once regenerated, cacti were transferred to ex vitro conditions where the normal CAM pathway resumed with a concomitant reduction in growth and CO₂ uptake. These results showed that growth of cacti can be considerably accelerated by in vitro culture. This revised version was published online in June 2006 with corrections to the Cover Date.     

Expression,tissue distribution and subcellular localization of dehydrin TAS14 in salt-stressed tomato plants

We previously isolated and characterized TAS14, an mRNA that is induced in tomato upon osmotic stress or abscisic acid (ABA) treatment and that shares expression and sequence characteristics with other dehydrin genes in different species. Affinity-purified antibodies against TAS14 protein were used to study the expression of TAS14 protein, both in seedlings and mature plants, its tissue distribution and its subcellular localization. TAS14 protein was not detected in 4-day-old seedlings but accumulated after ABA, NaCl or mannitol treatments. In NaCl-treated seedlings, some protein was detectable after 6 h of treatment and reached maximal levels between 24 and 48 h. Concentrations ranging from 5 to 12.5 g/l NaCl induced the protein to similar levels. In salt-stressed mature plants, TAS14 was expressed abundantly and continuously in aerial parts, but only slightly and transiently in roots. Immunocytochemical analysis of salt-treated plants showed TAS14 accumulated in adventitious root primordia and associated to the provascular and vascular tissues in stems and leaves. Immunogold electron microscopy localized TAS14 protein both in the cytosol and in the nucleus, associated to the nucleolus and euchromatin. Since TAS14 is a phosphoprotein in vivo, the classes of protein kinases potentially responsible for its in vivo phosphorylation were tested in in vitro phosphorylation assays. TAS14 protein was phosphorylated in vitro by both casein kinase II and cAMP-dependent protein kinase.The first two authors contributed equally to this paper.     

Semi in vivo pollen tube growth of Aechmea fasciata

With semi in vivo pollen tube growth assays, stigmas are pollinated in vivo and, after a fixed time interval, the styles are isolated from the ovary and placed on culture medium in vitro. Semi in vitro pollination includes isolation of the stigma and style complex, followed by pollination and placing the stylar end on nutrient medium. After semi in vivo pollination more and longer pollen tubes protruded from the cut end of the styles into medium, in comparison to semi in vitro pollination. Medium with 3 g l^–1 agar was better than that with 6 g l^–1 agar for pollen tube growth after the tubes emerged from the cut style. Semi in vitro pollination of the reversed style indicated that pollen tube growth was not influenced by the direction of the style. Fructose and glucose inhibited pollen tube growth compared to sucrose. Swollen tips characterized tube growth inhibition. After semi in vivo pollination all generative nuclei had divided to give two sperm nuclei. The average distance between the last sperm nucleus and the pollen tube tip as well as the distance between the two sperm nuclei diminished in growing pollen tubes between 24 and 48 h after pollination. The arrangements between the vegetative and the generative nuclei did not differ in semi in vivo and in vitro cultured pollen tubes of Aechmea fasciata. This information is important to explain why fertilization rate is low after placental pollination in comparison to placental grafted style pollination of Aechmea fasciata. The data may also contribute to the improvement of in vitro fertilization methods in Bromeliaceae and other higher plants.     

Effect of water stress mediated through agar on <Emphasis Type="Italic">in vitro</Emphasis> growth of potato

With the objective to develop a practical method of screening potato for drought tolerance, shoot and root growth in plantlets raised in vitro (from nodal cuttings drawn from in vivo as well as in vitro grown plantlets) were studied in three genotypes with known root mass production under field conditions. Different levels of water stress were induced using five concentrations of agar in MS (Murashige and Skoog in Physiol Plant 15:473–497, 1962) medium. Water potential of various media ranged from −0.70 MPa to −0.98 MPa. Water stress in culture adversely affected plantlet growth, and the responses varied with genotype and explant source. Genotype IWA-1 was less affected than Konafubuki and Norin-1. In the experiment with explants from in vivo grown plants, the time to rooting was considerably delayed in Konafubuki and Norin-1 by an increase in agar concentration, but no such effect was observed in IWA-1. In all media, the mean number of roots and root length was greater in IWA-1 than Konafubuki and Norin-1, and the latter two genotypes were at par. At 10 gl⁻¹ agar, IWA-1 had taller plantlets, heavier foliage dry weight, root volume, as well as root dry weight than Konafubuki and Norin-1, whereas the latter two genotypes were at par for all these characteristics. This pattern was similar to the reported pattern of these genotypes for root dry weight under field conditions. However, such similarity in the in vitro and field behavior of the tested genotypes was not observed when nodal cuttings drawn from in vitro plantlets were used as explants. It is concluded that in vitro screening of potato under specific and limited water stress conditions by raising plantlets from nodal cuttings drawn from in vivo grown plants may provide a system for effectively differentiating the genotypes for their expected root mass production under field conditions.     

Characterization of progeny of Coleus blumei following an in vitro selection for salt tolerance

An in vitro selection method was developed for Coleus blumei to enhance salt tolerance of this amenity species. Leaf disc explants were incubated on a Murashige & Skoog medium containing benzylaminopurine, 2 mg l^-1, and napthalene acetic acid, 1 mg l^-1, which initiated both callus and plantlets from the explants. A large number of explants were incubated on this differentiating medium containing 90 mM NaCl, which inhibited over 90% of plantlet formation. Surviving plantlets. were grown to maturity, when apical cuttings were taken and propagated. Plants were also allowed to flower and set seed. Cuttings from the selected regenerated plants showed consistently better growth in the presence of NaCl than unselected cuttings. Seed progeny of selected plants also showed more vigorous growth in the presence and absence of NaCl than progeny from unselected plants. The in vitro selection was compared with the results of an earlier in vivo selection to assess the contribution from tissue culture derived somaclonal variation. Progeny from the in vitro selection showed a higher level of tolerance than progeny from the in vivo selection.     

Effects of in vitro tissue culture conditions and acclimatization on the contents of Rubisco, leaf soluble proteins, photosynthetic pigments, and C/N ratio

The levels of two subunits of chloroplast ribulose 1,5-bisphosphate carboxylase/oxygenase (Rubisco), total soluble proteins, carbon and leaf nitrogen content, and photosynthetic pigments in various plants (avocado, oak, olive, and strawberry) grown in vitro and ex vitro were analysed. Compared to ex vitro grown plants, micropropagated avocado, oak, and strawberry showed a markable decrease in large subunit Rubisco. However, the small subunit only decreased in strawberry and oak. Contrary to this, olive did not reveal any difference in the level of either subunit. The C/N ratio increased significantly in in vitro grown plants, except in the case of olive, where an opposite behaviour was found. Leaf chlorophyll concentration on unit mass basis was higher in all the in vitro plants than in those of greenhouse- grown plants. Only avocado plantlets showed a statistically significant decrease in total soluble proteins. Further, overall data suggest that in vitro cultural conditions have a species-specific influence on large and small subunits of Rubisco, independent of the protein, chlorophyll, or nitrogen level.     

<Emphasis Type="Italic">In vitro</Emphasis> regeneration of witloof chicory (<Emphasis Type="Italic">Cichorium intybus</Emphasis> L.) from leaf explants and accumulation of esculin

Summary An efficient protocol has been developed for the regeneration of plantlets from leaf explants of witloof chicory (Cichorium intybus L.). Regeneration via callus was obtained on modified Murashige and Skoog semisolid medium (MS) containing 2.0 μM indole-3-acetic acid +5.0 μM 6-furfurylaminopurine (kinetin), and 1000 mgl⁻¹ casein hydrolyzate. At least five or more shoots regenerated from each callus. The shoots were rooted on MS +0.2 μM indole-3-butyric acid. The plantlets thus obtained were successfully established in soil after bardening. Esculin accumulation was recorded in plant tissues at different stages of differentiation in in vitro cultures and compared with in vivo-grown, plants. The esculin accumulation was higher in in vitro plants.     

常规培养与缺氧条件下BCG菌体内外sRNA的表达检测

近期发现细菌的sRNA在菌体内和菌体外均具有一定的生物学功能.为研究结核分枝杆菌菌体内外sRNA的表达情况,通过分析卡介苗(Bacillus Calmette-Guerin Vaccine,BCG)菌体和外泌体RNA测序结果,采用RT-qPCR法检测常规培养与缺氧条件下BCG菌体内外sRNA相对表达量,分析菌体内外sR...     

Enhanced neointimal growth in cultured rabbit aorta following in vivo balloon angioplasty

Summary We have used in vivo balloon catheterization in combination with in vitro organ culture to develop a model system for vascular neointima formation. A Fogarty balloon catheter was used to deendothelialize and rupture the internal elastic lamina of aortae in adult rabbits. After three d of recovery, aortae were harvested, divided into segments, and placed into organ culture. We obtained a daily index of cell proliferation in cultured vessels using [³H]thymidine incorporation into DNA. Also, segments were collected and processed for routine histology or immunohistochemistry. Aortic segments that had undergone ballooning 3 d before harvest and then cultured exhibited diffuse neointimal growth after several d in vitro, whereas those from sham-operated (nonballooned) rabbits showed generally only a single endothelial cell layer that is characteristic of normal intima. Aortae that were harvested, balloon-damaged in vitro, and then cultured exhibited no neointimal growth. The neointima that developed in cultured segments from in vivo ballooned rabbits was primarily of smooth muscle cell origin as determined by positive immunostaining for α-smooth muscle actin. The intima:media thickness ratios were significantly higher in aortic segments from ballooned rabbits at harvest and after 4 or 7 d in culture compared with those from nonballooned rabbits. Also, the [³H]thymidine index was higher in the in vivo ballooned aorta compared to non-ballooned or in vitro ballooned vessel. We conclude that ballooning in vivo followed by exposure to blood-borne elements produces an enhanced proliferative response in cultured vessels that is distinct from other in vitro models of neointimal growth.     

Impact of culture vessel ventilation on the anatomy and morphology of micropropagated carnation

Dianthus caryophyllus cv. Nelken was cultured in vitro under different ventilation rates (0.11, 0.21, 0.68 and 0.86 changes h⁻¹). Ventilation modified the anatomical characteristics of shoots and leaves described for plants grown in non-ventilated vessels: the cuticle became thicker, there was a decreased cell size and intracellular space size. Also, there were more photosynthetic and supportive tissues, including thicker cell walls. Increased ventilation promoted in vitro hardening of micropropagated carnation shoots, and pushed the culture-induced phenotype closer to that of ex vitro acclimatized plants. Anatomical variability of in vitro-grown plants was demonstrated to be a consequence of ventilation. This revised version was published online in August 2006 with corrections to the Cover Date.     

An in vitro approach to investigate medicinal chemical synthesis by three herbal plants

Ever since regulatory changes introduced herbals into mainstream supermarkets and pharmacies, there has been an explosion of demand for herbal plants and extracts which can be used to improve human health and well being. Science still lacks a basic mechanistic understanding of how environmental triggers regulate phytochemical accumulation, but this gap can be bridged using in vitro models to examine herbal species responses. For St. John's wort (Hypericum perforatum), uniform in vitro shoot cultures were set up as a parallel to a previously established sand culture system for investigation of physical and chemical environmental factors that control hypericin accumulation. Cytokinin supplementation of shoot culture medium resulted in a proliferation of abundant leaf glands with enhanced levels of hypericin, as compared to controls. Cell cultures of echinacea (Echinacea angustifolia) were established, and hydrophilic pharmacological components (caffeic acid derivatives) were detected. A protocol of rigorous explant pretreatment, and use of newly emerging vegetative shoots permitted establishment of axenic kava (Piper methysticum) callus, which was used to regenerate roots (organogenesis). Kavapyrone synthesis was achieved in both undifferentiated cell cultures and in cultured roots, although at lower levels than found in in vivo root systems. The predominance of kavain and methysticin in both forms of the in vitro cultures was parallel to the relative proportions from kava roots in vivo. The cell and organ cultures of all three herbal medicinals provide advantageous, easily-manipulated models to decipher environmental controls of phytochemical biosynthesis.     

线纹香茶菜叶上腺毛发育的细胞学研究

为进行中药溪黄草基原植物的品种鉴定,采用光镜和电镜对线纹香茶菜(原变种)[Isodon lophanthoides var.lophanthoides]叶上腺毛的发育进行细胞学研究。结果表明,线纹香茶菜具有头状腺毛和盾状腺毛2种类型。头状腺毛无色透明,由1个基细胞、1个柄细胞和1或2个头部分泌细胞构成;盾状腺毛为红色,由1或2个基细胞、1个柄细胞和4~8个分泌细胞构成头部。2种腺毛均由原表皮细胞经两次平周分裂形成,后因柄细胞和头部细胞所处的分化状态不同而形成两类腺毛。2种腺毛超微结构表明,质体、高尔基体和粗面内质网为主要分泌物产生和运输的细胞器。当盾状腺毛成熟时,角质层下间隙充满了分泌物,其分泌物的性质很可能决定了线纹香茶菜腺毛的颜色。     

Rust and Downy Mildew Resistance in Pearl Millet (Pennisetum glaucum) Mediated by Heterologous Expression of the afp Gene from Aspergillus giganteus

The cDNA encoding the antifungal protein AFP from the mould Aspergillus giganteus was introduced into two pearl millet (Pennisetum glaucum) genotypes by particle bombardment. Stable integration and expression of the afp gene was confirmed in two independent transgenic T₀ plants and their progeny using Southern blot and RT-PCR analysis. In vitro infection of detached leaves and in vivo inoculation of whole plants with the basidomycete Puccinia substriata, the causal agent of rust disease, and the oomycete Sclerospora graminicola, causal agent of downy mildew, resulted in a significant reduction of disease symptoms in comparison to wild type control plants. The disease resistance of pearl millet was increased by up to 90% when infected with two diverse, economically important pathogens. This is the first report of genetic enhancement of Pennisetum glaucum against fungal infections.