The Involvement of Fusaric Acid in the Bulb-rot of Gladiolus

Tissue cultures of Gladiolus have been used successfully to determine host specific properties of fusaric acid, a phytotoxin produced by Fusarium oxysporum f. sp. gladioli (Mas.) Sny. et Hn. Ten Gladiolus genotypes, including three wild South African species, varying in resistance to Fusarium-rot . were differentiated based on the expressed insensitivity to fusaric acid. Shoots and callus cultures were challenged in vitro with various concentrations of fusaric acid. The ion-release caused by the toxin was measured with callus and intact cormels. In all above mentioned bioassays resistant and susceptible genotypes could be generally discriminated. However, only two of the developed bioassays, the shoot assay and the ion-release with intact cormels, gave significantly coinciding results with the Fusarium-resistance assessed in a greenhouse experiment. When using callus tissue in the assays, the obtained answer correlated less with the Fusarium-resistance . It is concluded that a part of the Fusarium-resistance is based on fusaric acid insensitivity.     

Experimentally Synthesized Plant Chimeras I. In vitro Recovery of Nicotiana tabacum L. Chimeras from Mixed Callus Cultures

Experiments were conducted to develop techniques for synthesizingchimeras between plants of known genotype by utilizing in vitrotechniques Chimeral calli composed of green and albino tobaccocells were obtained by initiating callus tissue from mixturesof albino and green cotyledons, hypocotyls, callus culturesand cell suspensions The most effective mixing of genotypesoccurred when callus was derived from mixed filtered cell suspensionsUpon shoot regeneration, chimeral calli yielded 1317 non-chimeraland four chimeral plants Chimeras may have arisen as a resultof experimental procedures or possibly from spontaneous chromosomalabnormalities since leaves of some albino control plants occasionallyproduced small green islands of cells Explanations for the recoveryof a high percentage of non-chimeral shoots are presented Tobacco, callus cultures, cell suspensions, tissue culture, shoot apical meristems, somatic-crossing over     

An improved system to establish highly embryogenic haploid cell and protoplast cultures from pollen calluses of maize (Zea mays L.)

Regenerable, embryogenic haploid cell suspensions were initiated and established from type II pollen calluses of two selected Chinese maize genotypes (No 592 Y and 592.A2 LY). The induction frequency of friable, embryogenic callus (type II) was highly dependent on three factors: genotype, medium, cold pretreatment, and on their interactions. Repeated callus and cell selection during the culture procedure led to stable haploid suspensions consisting of fine clusters each containing 20–50 cells. The selected cell lines were able to maintain their morphogenic ability during long-term subculture (2 years). Protoplasts were successfully isolated from subcultured, friable, embryogenic pollen calluses and cultured on N₆BM and N₆K media using a feeder layer, obtained from 2-day-old suspension culture. Healthy plants were regenerated from protoplast-derived calluses.     

Defense responses of Fusarium oxysporum to 2,4-diacetylphloroglucinol, a broad-spectrum antibiotic produced by Pseudomonas fluorescens

A collection of 76 plant-pathogenic and 41 saprophytic Fusarium oxysporum strains was screened for sensitivity to 2,4-diacetylphloroglucinol (2,4-DAPG), a broad-spectrum antibiotic produced by multiple strains of antagonistic Pseudomonas fluorescens. Approximately 17% of the F. oxysporum strains were relatively tolerant to high 2,4-DAPG concentrations. Tolerance to 2,4-DAPG did not correlate with the geographic origin of the strains, formae speciales, intergenic spacer (IGS) group, or fusaric acid production levels. Biochemical analysis showed that 18 of 20 tolerant F. oxysporum strains were capable of metabolizing 2,4-DAPG. For two tolerant strains, analysis by mass spectrometry indicated that deacetylation of 2,4-DAPG to the less fungitoxic derivatives monoacetylphloroglucinol and phloroglucinol is among the initial mechanisms of 2,4-DAPG degradation. Production of fusaric acid, a known inhibitor of 2,4-DAPG biosynthesis in P. fluorescens, differed considerably among both 2,4-DAPG-sensitive and -tolerant F. oxysporum strains, indicating that fusaric acid production may be as important for 2,4-DAPG-sensitive as for -tolerant F. oxysporum strains. Whether 2,4-DAPG triggers fusaric acid production was studied for six F. oxysporum strains; 2,4-DAPG had no significant effect on fusaric acid production in four strains. In two strains, however, sublethal concentrations of 2,4-DAPG either enhanced or significantly decreased fusaric acid production. The implications of 2,4-DAPG degradation, the distribution of this trait within F. oxysporum and other plant-pathogenic fungi, and the consequences for the efficacy of biological control are discussed.     

Influence of primary callus induction conditions on the establishment of barley cell suspensions yielding regenerable protoplasts

Summary With the aim of the development of a culture method for efficient plant regeneration from barley (Hordeum vulgare L.) protoplasts, we examined several culture conditions for primary calli from immature embryos of cvs. Dissa and Igri, which were used for initiation of cell suspensions. Among the primary callus culture conditions tested, growth condition of donor plants had a great impact on these efficiencies; Igri protoplasts derived from embryos of plants grown in a greenhouse gave rise to albino plants and few green shoots while several cell lines originating from embryos of plants grown in a growth chamber (16h light, 12°C) yielded protoplasts developing into green plants. In contrast, cell suspensions were produced at higher frequencies from calli derived from embryos of greenhouse-grown Dissa plants. In Igri, increased levels of 2,4-dichlorophenoxyaceticacid (2,4-D) significantly reduced the efficiency of cell suspension establishment and plant regeneration from protoplasts was achieved only with suspension cells derived from calli induced at the lowest level (2.5 mg/l), while the effect of the 2,4-D concentration was not clear in Dissa. The developmental stage of immature embryos also affected the efficiency of cell suspension establishment, and the optimal embryo size was determined to be approximately 1mm in diameter. These results demonstrate the importance of callus induction conditions for successful barley protoplast culture.     

Initiation of morphogenic cell-suspension and protoplast cultures of barley (Hordeum vulgare L.)

Cell-suspension cultures were initiated from embryogenic calli of various barley cultivars. Seven fast-growing suspension lines were obtained from four different cultivars (cvs. Dissa, Emir, Golden Promise and Igri). Two of these cell suspensions showed morphogenic capacity. From a cell suspension of cv. Dissa, albino plantlets were regenerated when aggregates were cultured on solid medium. Aggregates of cv. Igri usually stopped differentiation at the globular stage, but occasionally formed scutellum-like structures. Five suspension lines were used for protoplast isolation and culture. Dividing protoplasts were obtained from all lines, but with cv. Igri a few divisions only and no further development were observed. Protoplasts from the various lines differed in the time of first division (2–14 d), division frequency (0.09–70.9%) and efficiency of colony formation (0.09–7.3%). Protoplasts isolated from the morphogenic cell suspension of cv. Dissa developed compact calli which sporadically regenerated albino plantlets.Abbreviations CC, MS, N6, SH, Kao8p culture media; see Material and methods - cv chltivar - dicamba 3,6-dichloro-o-anisic acid - 2,4-D 2,4-dichlorophenoxyacetic acid - picloram 4-amino-3,5,6-trichloropicolinic acid     

Haploid and diploid plant regeneration from protoplasts of anther callus in rice

Summary The regeneration of haploid and diploid plants was demonstrated from protoplasts that were isolated from cell suspensions of anther callus in rice. The cell suspension in the AA medium that contained 4 amino acids as the sole nitrogen source was friable, finely dispersed, and readily released a large number of protoplasts. These protoplasts, subsequently cultured in NO₃ medium that contained nitrate as the sole nitrogen source, formed compact calli. The compact calli produced green plants with a frequency of 24%. Out of 15 flowering plants, 4 were haploids, the others were diploids which showed a uniform morphology but varied in seed fertility from 95 to 0%.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indole-3-acetic acid     

Developing a cell suspension system for Musa-AAA-EA cv. ‘Nakyetengu’: a critical step for genetic improvement of Matooke East African Highland bananas

Embryogenic cell suspensions of triploid East African Highland bananas (Musa AAA-EA) were initiated and generated using cooking cultivar ‘Nakyetengu’ belonging to the Nakabululu clone set. Immature male flowers produced embryogenic calli consisting of embryos and friable tissue after 4 mo culture on a modified MA1 callus induction medium. Friable calli were initiated and maintained in liquid MA2 medium. A cell growth rate of 1.5–2.0 sedimented cell volume (SCV) per month was observed. Embryo development was observed at 2.18?×?10³ embryos per mL SCV. Germination of these embryos was observed at 2.8% and 6.2% for two cell suspension lines. Plant regeneration efficiency was 60–100%, all producing normal plants with a shoot and roots at weaning. In the field, somatic cell-derived plants were all normal morphology and comparable to control plants during vegetative and reproductive stages. This study is a breakthrough for recalcitrant East African Highland banana and offers a system that can provide essential raw materials for associated germplasm improvement through genetic engineering approaches.     

Characterization and regeneration of wheat (Triticum aestivum L.) embryogenic cell suspension cultures

Summary Stable cell suspension cultures were established from two types of calli (one compact, nodular and embryogenic, the other friable and embryogenic) derived from cultured immature embryos of wheat (cv FLA302). Only aged calli, which had been subcultured for at least 5–8 months, formed suspensions comprised mainly of groups of small, round, densely cytoplasmic, starch-containing cells. Only the embryogenic suspension derived from the aged, compact and nodular callus formed distinct somatic embryos when plated on regeneration media containing IAA and zeatin. Upon subsequent transfer to fresh regeneration medium more than 200 green rooted plants were obtained.Abbreviations 6-BA 6-benzylaminopurine - CH casein hydrolysate - 2,4-D 2,4-dichlorophenoxyacetic acid - GA₃ gibberellic acid - IAA indole-3-acetic acid - IBA indole-3-butyric acid - MS Murashige and Skoog (1962) basal medium - NAA naphthaleneacetic acid - PCV packed cell volume     

Establishment of oil palm cell suspensions and plant regeneration

Primary globular callus from immature zygotic embryos and friable embryogenic tissue derived from mature zygotic embryos were used to establish suspension cultures. Callus cultures were established either on modified Y3 or MS medium containing 475–500 M 2,4-D or 250 M picloram and 0.3% (w/v) activated charcoal. Suspension cultures of both cell lines were established in modified Y3 medium containing 10 M 2,4-D. The establishment of cell suspensions from friable embryogenic tissue took only 2 months, in contrast with suspensions from primary globular callus which took 3–5 months to establish. Embryo differentiation was observed only in cell suspensions derived from the friable embryogenic tissue after plating aliquots on regeneration medium. Germinated embryos were recovered and plantlets were successfully established under greenhouse conditions.Abbreviations CET compact embryogenic tissue - FET friable embryogenic tissue - CIM callus induction medium - PGC primary globular callus - 2,3-D 2,4-dichlorphenoxyacetic acid Y3-Eeuwens' medium - MS Murashige & Skoog medium - PVP-40 polyvinylpyrrolidone - KM Kao & Michayluk vitamins - ABA abscisic acid     

In vitro selection and regeneration of carnation (Dianthus caryophyllus L.) plants resistant to culture filtrate of Fusarium oxysporum f.sp. dianthi

Callus cultures derived from internodal segments of two cultivars of carnation susceptible to Fusarium oxysporum f.sp. dianthi were successfully used for in vitro selection for resistance to this pathogenic fungus. Resistant lines were selected by culturing calli on growth medium containing various concentrations of the culture filtrate of F. oxysporum f.sp. dianthi. Resistant calli obtained after two cycles (25 days/cycle) of selection were used for plant regeneration. About 32% of the plants regenerated from the resistant calli had acquired considerable resistance against the pathogen in the field. No phenotypic variation was observed in the selected regenerates.     

Germination of phytopathogenic fungi conidia

The autoregulation of conidium germination in phytopathogenic micromycetes of the genera Fusarium, Botrytis, and Bipolaris was studied. It was shown that Trichoderma longibrachiatum was less competitive than Fusarium oxysporum after their simultaneous inoculation but inhibited the phytopathogen growth in the case of earlier introduction. In the latter case, no autoinhibition of the germination of F. oxysporum conidia occurred; moreover, cooperative effect was observed, i.e., the number of germinated F. oxysporum conidia increased with an increase in their density.     

Adhesion of Fusarium oxysporum conidia to tomato roots

The occurence of a binding process between Fusarium oxysporum conidia and the surface of tomato roots was demonstrated in vitro by using a quantitative assay and a serial washing procedure. The number of conidia bound per root unit increased with increasing the concentration of the spores in solution until binding reached saturation. The attachment could be described accurately in terms of the Langmuir adsorption isotherm, indicating the existence of a single class of specific, high-affinity adherence sites on the root surface. No differences were detected in the extent of binding of several strains of F. oxysporum differing either in pathogenicity or in host range. Site-specific binding of F. oxysporum conidia may be important in securing the fungal spores at the root surface, after which germination and other processes required for colonization can proceed.     

Histology of somatic embryogenesis in cultured leaf segments of sugarcane plantlets

Calli have been initiated from young leaves of in vitro grown sugarcane shoots. Histological examination has shown that the two types of calli induced (nodular and friable) originated from different regions of the explants and were cytologically different.This study has shown an obvious relation between the developmental stage of the excised tissue and the potential of plant regeneration of the in vitro initiated callus culture. Nodular calli were obtained from bases of the fast-growing young leaves while their more mature parts of the older leaves only produced friable calli. High-frequency plant regeneration via somatic embryogenesis was obtained from nodular calli while friable calli rarely produced plantlets.     

Induction of morphologically and genetically unstable calluses of Fagopyrum tataricum by colchicine

A study was made of colchicine effect on genetic and morphological stability of morphogenic calli of the tatar buckwheat Fagopyrum tataricum (L.) Gaertn. A prolonged exposure of the morphogenic callus in colchicins-containing medium led to its morphological changes: the callus became more friable, and proembryogenic cell complexes disappeared. Genetic non-stability started from the first days of culturing in colchicine-containing indicated by amitotic divisions and K-mitoses, leading to the formation of micronuclei and increased variability in chromosome number. As a result of colchicine action, a few lines of heterogeneous calli were obtained differing in morphology, chromosome numbers, and ability to morphogenesis from the primary morphogenic callus. Genetic instability appeared in the following passages, when the treated calli were subcultured in the medium without colchicine: a wide range of abnormal nuclear division and chromosome aberrations was observed. This prolonged genetic instability was accompanied by a prominent increase in the formation of friable clones, which was 20-30 times higher than in the control. The formation of friable clones seems to result from one or two point mutations.     

Plant regeneration from long term suspension culture-derived protoplasts of hexaploid wheat (Triticum aestivum L.)

Highly regenerable callus cultures have been obtained from immature embryos of hexaploid wheat cv. Oderzo. Friable fast growing calli were induced at high frequency. Suspensions were initiated from the most friable callus lines: they became established in about two months. Suspensions consisted of cell aggregates of 30 to 1000 um in diameter. Upon plating on MS hormone-free medium, suspensions regenerated green plantlets, and their regenerative capability was maintained for at least 10 months. Protoplasts were isolated from 7–8 day old suspension cultures with a yield of 4–6×10⁶ protoplasts/g fresh weight cells. Protoplast culture was either in liquid medium or in a bead-type system with agarose beads. First divisions were detected at day 5. At day 14 visible colonies were detected and the plating efficiency was evaluated between 2 and 8% over the initial number of protoplasts plated. Protoplast-derived calli were cultured in the presence of 1 mg/l IAA and 0.5 mg/l zeatin and were used for reinitiating new suspension cultures. Upon plating onto MS hormone-free medium, with or without the addition of 0.1 mg/l GA3, calliclones were induced to differentiate. Regeneration of complete plantlets, with shoot and roots took about two months. Plantlets were grown in sterile conditions until 12–15 cm height, and were subsequently transplanted in soil.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indole-3-acetic acid - MS Murashige and Skoog (1962) medium - PCV packed cell volume - MES morpholinoethanesulfonic acid     

Studies on Fusarium-Gladiolus Interactions

Using standardized conditions, 65 genotypes of Gladiolus were screened for Fusarium resistance. High levels were found in 'large-flowered" types, Primulinus hybrids, G. callianthus, G. garnierii , and G. dalenii. Some accessions of G. dalenii exhibited no disease symptoms when inoculated with two standard test isolates. No resistance was found in 'small-flowered' types. To estimate race-specifity of the resistance, eight highly resistant Gladiolus genotypes were tested in an in vitro test against 43 isolates of F. oxysporum f.sp. gladioli. Two isolates were able to partially infect the G. dalenii accessions and this was confirmed using whole plants. Implications for resistance breeding are discussed.     

Establishment of <Emphasis Type="Italic">Cyperus aromaticus</Emphasis> cell suspension cultures for the production of Juvenile hormone III

Cell suspension cultures of Cyperus aromaticus were established from the yellow friable callus derived from the root explants of in vitro plantlets. Four callus cell lines were selected based on their growth index from two populations of callus cultures originated from the mother plants grown in two different locations. The selected four cell lines (Z1, Z6, P4, P9) showed uniform cell growth but produced different amounts of juvenile hormone III (JHIII). The Z1 cell line possessed fast-growing characteristics, produced a high JHIII content, and was chosen as the elite cell line for an optimization study of C. aromaticus cell suspension cultures. An inoculum cell mass of 0.3 g from 12-d cultures in 30 ml culture medium was found to be the optimum inoculum size and culture age for establishing the cell suspension culture of C. aromaticus. MS basal medium supplemented with 4.5 mg/l 2,4-D and 5.5 mg/l NAA was found to be the best medium for production of maximum cell biomass and JHIII. These results indicated that JHIII can be produced from suspension culture of C. aromaticus using a single-stage cell-culture system.     

Regeneration of fertile plants from protoplasts derived from embryogenic cell suspensions of barley (Hordeum vulgare L.)

We report regeneration of fertile plants from barley (Hordeum vulgare L. cv. Igri) protoplasts isolated from regenerable suspension cultures initiated from anther-derived embryogenic callus. Plants were routinely regenerated from these suspension cultures, which maintained their regenerative capacity for several months. It was first possible to isolate protoplasts from suspensions after three months of culture and after four months protoplasts capable of division could be isolated. Protoplasts maintained the regenerative capacity of the donor cells and formed embryogenic callus. Green plants were regenerated from protoplast-derived calli, although the proportion of albino plantlets was high. Viable regenerants were transferred to soil and fertile plants were recovered.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - 6-BAP 6-benzylaminopurine - PP Protoplasts