Effect of brassinolide on callus growth and regeneration in Spartina patens (Poaceae)

The effect of brassinolide (BL) on cultured calluses of Spartina patens (Ait.) Muhl. (Poaceae), a halophyte monocot was studied. BL at 0.03–0.04 mg l^–1 at fixed concentrations of IAA (0.2 mg l^–1) and BA (3.0 mg l^–1) added in MS medium increased the ratio for fresh weight (CIRFW) to dry weight (CIRDW) by 96–111% and 235–326%. Similarly, in callus regeneration capacity, BL at 0.03 mg l^–1 was most effective, increasing the shoot regeneration ratio (SRR) by 425%. BL at 0.04 mg l^–1 had not such an increasing effect as BL at 0.03 mg l^–1, which increased SRR by 79%. However, BL at 0.005 mg l^–1 promoted regenerated shoot growth most significantly, increasing the shoot height increasing ratio (SHIR) by 395% after a 40-day culture. BL at 0.05 mg l^–1 was least effective in the callus regeneration and regenerated shoot growth, decreasing SRR by 27% and SHIR by 52%. Present results suggest that BL at 0.03 mg l^–1 is suitable for the callus growth and shoot regeneration, while BL at 0.005 mg l^–1 effectively enhanced the regenerated shoot growth.     

Effect of mono- and divalent cations on polyp morphogenesis in isolated tentacles of Aurelia aurita(Scyphozoa)

Tentacles excised from syphistoma polyps of Aurelia aurita undergo rapid regeneration to form whole polyps following exposure to an excess or absence of specific ions. It has been shown that a 12–18 h exposure of isolated tentacles to 58 mM excess of Cs⁺ results in a rapid firing of nematocysts, followed by an accelerated, synchronous polyp morphogenesis. Absence of Mgt²⁺ from the culture solution for 4–24 h also led to an accelerated, synchronous polyp regeneration. In either experimental set-up, incubation in 5–10 mM hydroxyurea effectively halted regeneration. Exposure to an excess of Li⁺ (50–200 mm) or K⁺ (10–50 mM) caused no firing of nematocysts and a percentage of polyp regeneration only slightly higher than control tentacles. Use of the K⁺ channel blocker tetraethylammonium (TEA; 100–300 mM) lead to similar levels of regeneration. A Ca²⁺ or K⁺-reduced artificial culture solution did not enhance regeneration. Ouabain (1 mM) dampened the Cs⁺ induced acceleration of polyp morphogenesis, and when given without Cs⁺, elicited a control level response.     

Effect of 2,4-Dichlorophenoxyacetic Acid and NaCl on the Establishment of Callus and Plant Regeneration in Durum and Bread Wheat

Optimal callus induction and plant regeneration were obtained in bread and durum wheat by manipulating the NaCl concentration in the induction medium. Immature embryos from a high regeneration line of spring wheat (Triticum aestivum L.), 'MPB-Bobwhite 26', and an elite durum wheat (Triticum turgidum var. durum L.), 'Mexicali', were cultured in E3 induction medium consisting of Murashige and Skoog (MS) medium, 2.5 mg l^–1 2,4-dichlorophenoxyacetic acid (2,4-D), 2% sucrose and 0.9% Bacto agar. The treated embryos were transferred to E3 liquid medium supplemented with various levels of 2,4-D and NaCl. Incubation on medium containing 2.5 mg l^–1 2,4-D for 45 days produced callus and plant regeneration in 'MPB-Bobwhite 26', but lower callus yield and plant regeneration in 'Mexicali', indicating that 2,4-D alone was not sufficient for callus induction and plant regeneration in this durum variety. Callus yield and regeneration frequencies were higher in 'Mexicali' embryos that were incubated in media containing 2 mg l^–1 2,4-D and 2 mg l^–1 NaCl. The presence of NaCl in the medium beyond the initiation phase was detrimental to plant regeneration. The use of NaCl in the callus formation could form the basis for improved transformation of durum wheat varieties.     

Genetic Mechanisms of Cell Transdifferentiation

Studies have been considered, which concern identification of regulatory genes in adult newts and their expression during retinal and lens regeneration. B.L. Astaurov repeatedly urged to join efforts of geneticists and embryologists in studies of the mechanisms underlying biological phenomena. This was also true for studies of regeneration. Such studies became possible only after introduction of molecular biology methods. Studies of the mechanisms underlying regeneration have been recently carried out jointly by geneticists and developmental biologists. This review presented at the conference dedicated to the 100th anniversary of B.L. Astaurov deals with these aspects in studies of regeneration.__________Translated from Ontogenez, Vol. 36, No. 4, 2005, pp. 292–299.Original Russian Text Copyright © 2005 by Mitashov.     

α6 Integrin Is Regulated with Lens Cell Differentiation by Linkage to the Cytoskeleton and Isoform Switching

The developing chicken embryo lens provides a unique model for examining the relationship between α6 integrin expression and cell differentiation, since multiple stages of differentiation are expressed concurrently at one stage of development. We demonstrate that α6 integrin is likely to mediate the inductive effects of laminin on lens differentiation as well as to function in a matrix-independent manner along the cell–cell interfaces of the differentiating cortical lens fiber cells. Both α6 isoform expression and its linkage to the cytoskeleton were regulated in a differentiation-specific manner. The association of α6 integrin with the Triton-insoluble cytoskeleton increased as the lens cells differentiated, reaching its highest levels in the cortical fiber region where the lens fiber cells are formed. In this region of the lens α6 integrin was uniquely localized along the cell–cell borders of the differentiating fiber cells, similar to β1. α6β4, the primary transmembrane protein of hemidesmosomes, is also expressed in the lens, but in the absence of hemidesmosomes. Differential expression of α6A and α6B isoforms with lens cell differentiation was seen at both the mRNA and the protein levels. RT-PCR studies demonstrated that α6B was the predominant isoform expressed both early in development, embryonic day 4, and in the epithelial regions of the day 10 embryonic lens. Isoform switching, with α6A now the predominant isoform, occurred in the fiber cell zones. Immunoprecipitation studies showed that α6B, which is characteristic of undifferentiated cells, was expressed by the lens epithelial cells but was dramatically reduced in the lens fiber zones. Expression of α6B began to drop as the cells initiated their differentiation and then dropped precipitously in the cortical fiber zone. In contrast, expression of the α6A isoform remained high until the cells became terminally differentiated. α6A was the predominant isoform expressed in the cortical fiber region. The down-regulation of α6B relative to α6A provides a developmental switch in the process of lens fiber cell differentiation.     

A rapid and efficient method for regeneration of plantlets from embryo explants of cumin (Cuminum cyminum)

A new, simple and efficient method was developed for multiple shoot regeneration of cumin from imbibed embryo cultures. This method yielded a large number of shoots within short period of time (30–50 days) without any subculturing. The effects of different media, different embryo explants and various combinations of plant growth regulators (PGRs) on callus formation and shoot regeneration in cumin were investigated. Simultaneous callus formation and shoot regeneration was obtained. The best response for multiple shoot regeneration was observed on B5 medium containing 1.0 mg l^–1 BAP, 0.2 mg l^–1 NAA and 0.4 mg l^–1 IAA, with an average of 140 shoots per explant.     

Improved isolated microspore culture efficiency in medium with maltose and optimized growth regulator combination in japonica rice (Oryza sativa)

The influence of maltose and growth regulators on microspore culture response was investigated in japonica rice. High frequency of callus induction of isolated microspores was obtained with liquid medium containing MS salts, 100 mg l^–1 myo-inositol, 1 mg l^–1 thiamine-HCl, 500 mg l^–1 glutamine, 60 g l^–1 maltose, and several growth regulators. The effect of maltose on promoting callus formation was associated with keeping a high proportion of swollen microspores after 5 day preculture and increasing the microspore division rate on the 3rd day after culture initiation. No significant effect of maltose in place of sucrose on plantlet regeneration was seen in regeneration medium. Among the growth regulators tested, the combination of auxin 2,4-dichlorophenoxyacetic acid (1 mg l^–1), naphthaleneacetic acid (1 mg l^–1), and cytokinin (6-benzyl-aminopurine 1 mg l^–1) in the medium proved to be much better for callus formation than in the other media, and the percentage of callusing microspores of that medium reached 0.86%. Indole-3-acetic acid (0.5 mg l^–1) and kinetin (2 mg l^–1) in regeneration medium were beneficial for green plantlet differentiation. The results also showed that the frequencies of microspores initial division, callus formation and green plant regeneration varied among genotypes no matter what kind of growth regulator and sugar were used. Xiushui 117 was the best variety for callusing followed by 02428 & Taipei 309. Taipei 309 showed a good ability for green plantlet regeneration.Abbreviations 2,4-d 2,4-dichlorophenoxyacetic acid - NAA naphthaleneacetic acid - 6-BA 6-benzylaminopurine - KT kinetin - IAA indole-3 acetic acid     

Improved regeneration response of creeping bentgrass and japonica rice by maltose and lactose

The effect of alternative carbohydrate sources to sucrose for plant regeneration from long-term cell cultures of creeping bentgrass (Agrostis palustris Huds.cv.Penncross) and japonica rice (Oryza sativa L.cv.Nipponbare) was studied. Both maltose and lactose supported a higher degree of regeneration compared to sucrose; in 8-and 19-month-old cultures of creeping bentgrass, the frequencies of regenerating calli remained at 76–93% and the numbers of plants regenerated were 8 to 36-fold higher. In 35-month-old cultures of japonica rice, 2–4% of the calli were capable of regeneration on maltose and lactose media. These results indicate that loss of plant regeneration in long-term cultures is caused, at least in part, by specific cultural conditions and not by genetic changes.     

Regeneration of multiple shoots and plants from Mesembryanthemum crystallinum

Mesembryanthemum crystallinum plants have been regenerated via organogenesis from hypocotyl, cotyledonary node, and leaf expiants with varying frequencies. The highest regeneration frequencies were obtained from either hypocotyls (23–34%) or cotyledonary nodes (21–41%). Leaf expiants yielded very poor regeneration frequencies (0–11%). Expiants were placed on Murashige and Skoog (MS) media supplemented with 3% sucrose, 0.8% bacto-agar and either, 10.8×10^–6M NAA and 8.8×10^–6M BA (MSmsh), 1×10^–5M BA and 1×10^–6M IAA, (MS4) or 1×10^–6M BA and 1×10^–6M IAA (MS5). Shoot formation frequencies were greater on MS4 and MS5 and lower on MSmsh, however, overall differences of regeneration frequency among media tested were not statistically significant. Regenerated plantlets were rooted on MS medium without growth regulators. Mature, regenerated plants were fertile and exhibited DNA content and ploidy profiles that were identical to wild type plants.Abbreviations MS Murashige and Skoog media - CAM Crassulacean acid metabolism - kbp kilobase pairs - NAA 1-naphthaleneacetic acid - BA 6-benzyladenine - IAA indole-3-acetic acid     

Callus induction and plant regeneration in the metallophyte <Emphasis Type="Italic">Silene vulgaris</Emphasis> (Caryophyllaceae)

Zinc tolerant and non-tolerant ecotypes of Silene vulgaris (Moench) Garcke were examined for their suitability to provide an efficient and reproducible callus formation and regeneration system. Successful and rapid regeneration of adventitious shoots from callus was achieved in leaf tissue but not root or apical meristematic tissue using concentrations of plant growth regulators that spanned a concentration range of (0.05–1 mg l^–1) NAA and (0.5–10 mg l^–1) BAP respectively. Large differences were observed between ecotypes regarding both callus formation and shoot regeneration on the different hormone concentrations. Leaf explants incubated on basal media with different concentrations of auxin/cytokinin demonstrated initial callus formation after 3 weeks of incubation. Callus initiation was seen to develop from the wounded margins of the leaf explants and, after 2 weeks the initially dark callus became more swollen and green. A mean of 6–8 shoots per leaf explant was observed and the survival rate of these regenerates was seen to be 90%. All regenerated plants that were transferred to soil after the emergence of roots, were seen to have no disturbed morphological characteristics. This study demonstrates the stability of the zinc tolerance traits in the regenerated explants and the potential use of this calli formation and regeneration system in Silene vulgaris. Further, this study is a necessary pre-requite for the development of a genetic transformation system with which to study the genetic basis of zinc and, other heavy metal tolerances in a species with a naturally selected high-level tolerance.     

Co-segregation of nitrate-reductase activity and normal regeneration ability in selfed sibs of Nicotiana plumbaginifolia somatic hybrids,heterozygotes for nitrate-reductase deficiency

Summary The nitrate-reductase (NR) defective cell lines of Nicotiana plumbaginifolia isolated in our laboratory could not be regenerated into plants on the standard medium (Márton et al. 1982 a). The normal regeneration potential, however, was restored in somatic hybrids obtained by fusing the NR^– (green) lines with a pigment deficient (P^–), but NR⁺ line, A28. Somatic hybrid plants were fertile in two combinations (A28 + NA9 and A28 + NX9). As expected, segregation for NR^– and P^– was found after selfing the somatic F1 (SF1) obtained by protoplast fusion, and in the F2. The variable segregation ratios are explained by chromosome abnormalities. Co-segregation of the NR^– phenotype and the altered response to shoot induction on standard medium suggest the involvement of the nitrate-assimilatory pathway in determining shoot regeneration ability.     

Embryogenesis and Regeneration of Green Plantlets from Wheat (Triticum aestivum) Leaf Base

A short-term regeneration system from leaf-base-derived callus of wheat (Triticum aestivum L.) was developed. Embryogenic callus formation and shoot regeneration were achieved from the first basal segments of 3–4-day-old seedlings. Callus formation frequency as well as plantlet regeneration frequency was dependent on the composition of basal medium and the concentration of 2,4-dichlorophenoxyacetic acid (2,4-D). MS medium with 2,4-D 4.5–9.0 mol l^–1 was optimal for the culture of wheat leaf base. Effects of different combinations of plant growth regulators, which were added in either callus induction medium or shoot regeneration medium, were tested. Adding of BAP in callus induction medium shortened the time of shoot emergence but could not improve the producing of embryogenic calli and green plantlets. Optimal ratio of 2,4-D, BAP and NAA gave similar regeneration frequency to control. Existence of cytokinins in regeneration medium had no effect on increasing the regeneration frequency. The regenerants could grow to normal, fertile plants after they were transferred into soil.     

Efficient regeneration of <Emphasis Type="Italic">Brassica napus</Emphasis> L. hypocotyls and genetic transformation by <Emphasis Type="Italic">Agrobacterium tumefaciens</Emphasis>

An efficient system for shoot regeneration and Agrobacterium-mediated gene transfer into Brassica napus was developed through the modification of the culture conditions. Different concentrations of benzyladenine (1.5, 3.0 and 4.5 mg dm^–3) and thidiazuron (0.0, 0.15 and 0.30 mg dm^–3) were evaluated for shoot regeneration of 7, 14 and 21-d-old hypocotyl explants. Maximum shoot regeneration frequency was obtained in 21-d-old explants using 4.5 mg dm^–3 benzyladenine and 0.3 mg dm^–3 thidiazuron. Under above culture condition, the highest percentage of shoot regeneration frequency was 200 %. Agrobacterium-infected explants grown on the selection medium gave rise to transgenic shoots at a frequency of 11.8 %. Transformed shoots rooted when cultured on a medium supplemented with 2 mg dm^–3 of indolebutyric acid and 10 mg dm^–3 kanamycin. The rooted plantlets were successfully established in the soil and developed fertile flowers and viable seeds. Evidences for transformation were confirmed by GUS assay and PCR analysis.     

Effects of support medium on embryo and plant production from cultured anthers of soft-red winter wheat (Triticum aestivum L.)

The present study was designed to examine the effects of media support on the frequency of embryo and plant production from cultured anthers of soft-red winter wheat. Approximately twice as many embryos were produced when anthers were cultured in a liquid as compared to an agar-solidified medium. Upon transfer to regeneration medium, a significantly lower percentage of the embryos produced in liquid regenerated plants. The addition of activated charcoal to an agar-solidified medium resulted in a considerable increase in embryo production, however, plant regeneration from embryos produced on charcoal-containing medium was significantly lower than those produced on agar only. Embryo production frequencies ranged from 2.4–13.2 and 2.5–32.2 embryos per 100 anthers on media with and without charcoal, respectively. Plant regeneration frequencies from embryos produced in the presence of activated charcoal ranged from 0–5.5% as compared to 0–39.1% from embryos produced in the absence of charcoal. More than twice as many embryos produced on Ficoll-containing liquid medium regenerated plants when compared to embryos produced in liquid only. The results from this study suggest that cultural modifications designed to maximize embryo production must take into account the quality of the resulting embryos as they relate to plant regeneration.     

Studies of cotyledon protoplast cultures from Brassica napus,B. campestris and B. oleracea. I: Cell wall regeneration and cell division

Protoplasts isolated from cotyledons of a number of cultivars of Brassica napus, B. campestris and B. oleracea were cultured in different media to study the characteristics of cell wall regeneration and cell division at early stages of culture. Time course analysis using Calcolfluor White staining indicated that cell wall regeneration began in some protoplasts 2–4 h following isolation in all cultivars. 30–70% of cultured cotyledon protoplasts exhibited cell wall regeneration at 24 h and about 60–90% at 72 h after the initiation of culture. Results also indicated that a low percentage (0.4–5.4%) of cultured cotyledon protoplasts entered their first cell division one day after initial culture in all twelve cultivars. The percentage of dividing cells increased linearly up to 40% from 1 to 7 day, indicating that cotyledon protoplasts of Brassica had a high capacity for cell division. Factors that influence the level of cell wall regeneration and cell division during cotyledon protoplast culture have been investigated in this study. Cotyledons from seedlings germinated in a dark/dim light regime provided a satisfactory tissue source for protoplast isolation and culture for all Brassica cultivars used. The percentages of protoplasts exhibiting cell wall regeneration and division were significantly influenced by cultivar and species examined, with protoplasts from all five cultivars of B. campestris showing much lower rates of cell wall regeneration than those of B. napus and B. oleracea over 24–120 h, and with the levels of cell division in B. napus cultivars being much higher than those in B. campestris and B. oleracea over 1–9 days. The capacity of cell wall regeneration and cell division in cotyledon protoplast culture of the Brassica species appears under strong genetic control. Cell wall regeneration in protoplast culture was not affected by the culture medium used. In contrast, the composition of the culture medium played an important role in determining the level of cell division, and the interaction between medium type and cultivars was very significant.Abbreviations BA benzylaminopurine - CPW Composition of Protoplast Washing-solution - CW Calcolfluor White - EDTA ethylenediamine-tetraacetic acid - KT Kinetin - Md MS modified Murashige and Skoog medium - 2,4-d 2,4-dichlorophenoxyacetic acid - NAA -naphthaleneacetic acid - IAA indole-3-acetic acid - PAR photosynthetically active radiation - SDS sodium dodecyl sulfate     

Inhibition of planarian regeneration by melatonin

Melatonin, which is a substance produced by the pineal body in vertebrates, inhibited regeneration in the planarian Dugesia japonica japonica Ichikawa et Kawakatsu. When decapitated planarians were maintained in a 1 mmol dm^–3 solution of melatonin, formation of the head was retarded; formation of the eyes, however, was not disturbed. Similarly in animals from which the tail was cut, regeneration of the tail was retarded if the animals were kept in melatonin solution of 1 mmol dm^–3. The effect was reversible once the melatonin was removed. Retardation of regeneration did not occur with similar application of three melatonin derivatives, serotonin hydrochloride, N-acetylserotonin, and 6-hydroxymelatonin. Melatonin endogenous to the planarian could be demonstrated by means of radio-immunoassay and was more abundant in the head region than other regions of the body. Melatonin, thus, appears to play a role in regulating regeneration in planarians and conceivably provides positional information in that process.     

Adventitious shoot regeneration from leaf explants of tissue cultured and greenhouse-grown raspberry

Adventitious shoot regeneration was observed using leaf-petiole explants from shoot-proliferating cultures of Comet red raspberry (Rubus idaeus L.). A maximum regeneration rate of 70% (3.7 shoots/explant) was obtained using 4.5–9.1 M (1–2 mg l^–1) N-phenyl-N-1,2,3-thiadiazol-5-ylurea (thidiazuron or TDZ) with 2.5–4.9 M (0.5–1 mg l^–1) 1H-indole-3-butanoic acid (IBA) or 2.3 M (0.5 mg l^–1) TDZ with 4.9 M (1 mg l^–1) IBA in modified Murashige-Skoog medium. TDZ was more effective than N-(phenylmethyl)-1H-purin-6-amine (BA) at promoting regeneration in combinations tested with IBA (maximum 50% regeneration rate; 1.8 shoots/explant). Variation in the agar concentration or incubation temperature, orientation or scoring of the leaf-petiole explants and use of separate leaf or petiole explants had no effect on shoot regeneration. Incubation in the dark for 1, 2 or 3 weeks prior to growth in the light did not influence the percent regeneration rate but depressed the number of adventitious shoots. Explant source, from micropropagated shoots or greenhouse-grown plants, had an effect on shoot regeneration that was genotype dependent. Only 8 of 22 (36%) raspberry cultivars were capable of regeneration from leaf explants derived from greenhouse-grown plants.     

In vitro plantlet regeneration from cotyledons of the tree-legume Leucaena leucocephala

Two plant regeneration methods applicable to Leucaenaleucocephala were developed. In the first method, involvingorganogenesis via callus formation, cotyledon, hypocotyl and root segments wereinitiated on MS medium containing different concentrations ofN⁶-benzyladenine (BA), 2,4-dichlorophenoxyacetic acid (2,4-D), andnaphthaleneacetic acid (NAA). Both compact (type I) and friable (type II) calliwere obtained from the cotyledon and hypocotyl explants treated with differentconcentrations of the growth regulators. Shoots were generated only from thefriable calli formed from the cotyledon explants. The calli formed from thehypocotyl explants did not generate shoots and the root explants died withoutforming callus. Cotyledon explants from 3–4 day old seedlings showedmaximum callus induction compared to those from older seedlings. In a secondmethod involving direct organogenesis, excised cotyledons were cultured on 1/2MS medium containing 10–35 mg l^–1N⁶-benzyladenine (BA) for 7–14 days. Transfer of thecotyledonsto regeneration medium containing low BA resulted in callus formation andsubsequent shoot regeneration from the base of the excised cotyledon explants,with up to 100% frequency. Regenerated shoots rooted best on a basal mediumcontaining no growth regulators.     

Tomato Transformation and Transgenic Plant Production

Tomato transformation and regeneration were analysed and optimized. Cotyledon explants from Lycopersicon esculentum cv. UC82B, were infected by Agrobacterium tumefaciens strain LBA4404 harbouring the neomycin phosphotransferase (NPTII) reporter gene. The effects of phenolic compounds, vitamins and growth regulators on plant transformation and regeneration were studied. Increasing the vitamin thiamine concentration from 0.1 mg l^–1 in standard medium to 0.4 mg l^–1 decreased the chlorophyll lost that accompanied the expansion of necrotic areas in cotyledon explants. Optimal shoot regeneration rate was obtained with a balanced concentration of 0.5 mg l^–1 auxin indolelacetic acid (IAA) and 0.5 mg l^–1 cytokinin zeatin riboside. Finally, when the phenolic acetosyringone was present in the co-culture medium at 200 µM, confirmed transgenic lines reached 50% of antibiotic resistant shoots. Under the above conditions, the transformation efficiency reached 12.5%.