In vitro selection for Fusarium wilt resistance in Gladiolus

Cormels pieces of four Fusarium susceptible Gladiolus cultivara (Friendship, Peter Pears, Victor Borge and Novalux) formed friable calli when cultured in vitro on Murashige and Skoog basal medium containing various concentrations of auxin and cytokinin. The friable calli established cell suspensions. Plantlet regeneration was obtained from the control callus, control cell suspension derived callus and in vitro selected Fusarium oxysporum Schlecht. resistant cell-lines of Friendship. The in vitro cormlets showed 85-95% germination after breaking dormancy of 8weeks at 4℃. Cell suspensions of all four Gladiolus cultivara were found to be highly sensitive to fusaric acid. Gradual Increase in fusaric acid concentrations to the cell-suspension cultures decreased cell growth considerably. One albino plant was found from the second generation of the In vitro selected cell line of Friendship. The albino plant was found to be highly susceptible to F. oxysporum. The cormlets of all in vitro selected call lines of Friendship were inoculated with a conidial suspension of the F. oxysporum before planting and were also sprayed with the same spore suspension for further characterization when the height of plants was about 6cm. The four selected cell lines showed the same response whether or not they were Inoculated with conidia of the F. oxysporum. Plantlets of all of the selected call lines exhibited significant growth as compared with the control after application of conidia of the F.oxysporum.     

In vitro propagation of Gladiolus hybridus Hort.: Synergistic effect of heat shock and sucrose on morphogenesis

Three cultivars (cvs.) of Gladiolus hybridus Hort., namely ‘Her Majesty’, ‘Aldebaran’ and ‘Bright Eye’ were successfully micropropagated. The cultures were established using intact cormels or segments of cormels and inflorescence axes on Murashige and Skoog (1962; MS) medium. The response depended on media supplements; both callus formation or direct induction of shoot buds was observed. Shoot differentiation from callus could be obtained on MS medium containing 1.0 μM BA (6–benzyladenine) and 10.0 μM NAA (α-naphthalene acetic acid) in all three cultivars. The same could be achieved by giving a heat shock (HS; 50 °C, 1h) to callus cultures (in case of ‘Her Majesty’ and ‘Aldebaran’ only) maintained on the basal medium. In these two cultivars, high sucrose concentration (0.232, 0.290 or 0.348 M) also favoured growth and proliferation of shoot cultures on a plant growth regulator-free medium at 20 °C in comparison to the cultures kept at 25 °C. On the other hand, shoot cultures maintained on the basal medium at 25 °C containing normal (0.058 M, i.e., 2.0%, w/v) sucrose concentration responded similar to those maintained at 20 °C on a high sucrose medium; reduced response was observed on normal sucrose containing medium at 20 °C. Heat shock enhanced shoot proliferation in the cultures maintained on basal medium, but induced prolific rooting in shoot cultures, within 5 days of HS, on high sucrose (optimum 0.232 M) medium. While the number of roots increased at higher sucrose concentrations in the medium in case of cvs. ‘Her Majesty’ and ‘Aldebaran’, the same was found to be independent of sucrose concentration in cv. ‘Bright Eye’. Generally the rooted plants produced on high sucrose (0.232 M) medium in comparison to medium with normal sucrose concentration showed better survival (ca. 90% as against 40%) in the soil. This revised version was published online in June 2006 with corrections to the Cover Date.     

Callus induction and plant regeneration from gladiolus

A method for the initiation of callus capable of plant regeneration from in vivo grown cormels of gladiolus (Gladiolus x grandiflorus Hort.) is described. Sliced cormels of the large-flowering hybrid, Peter Pears were cultured in vitro on a modified Murashige and Skoog medium, supplemented with various auxins. Yellow callus, which was either friable or compact, could be induced on all media tested. Callus induced on media with naphthaleneacetic acid failed to proliferate. Callus induced on media with 9 mM 2,4-dichlorophenoxyacetic acid showed the best growth. Addition of micro-elements and vitamins increased the induction and growth of callus capable of plant regeneration. Explants taken from the middle part of the cormels had the highest competence for callus initiation. Callus was induced on several gladiolus hybrids and the South African species G. garnierii Klatt. Callus induction was genotype dependent and among the cultivars tested, Peter Pears and White Prosperity were superior with respect to callus production on the media with either 2,4-dichlorophenoxyacetic acid or picloram. Plants were regenerated from yellow compact callus of all genotypes on media containing zeatin and benzyladenine in various concentrations.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - MS Murashige and Skoog basal salt and vitamins (1962) - CI callus induction medium - NAA -naphthaleneacetic acid - BA 6-benzyladenine - picloram 4-amino-3,5,6-trichloro-2-pyridinecarboxylic acid - zeatin 6-[4-hydroxy-3-methylbut-2-enylamino]purine     

The effect of dormancy on glucose uptake in gladiolus cormels

The uptake of glucose and of 3-O-methyl-d-glucose by cormel slices of Gladiolus X gandavensis Van Houtte was studied in relation to cormel dormancy. Uptake was higher in nondormant cormels. Incubation of nondormant cormels with abscisic acid (ABA) reduced their uptake capacity. Treatment of dormant cormels with 6-benzyladenine (BA) did not affect their uptake rate. ABA and BA promoted O₂ uptake, indicating that differences in uptake are not related to differences in energy supply.     

Metabolic Changes in Gladiolus Cormels During the Break of Dormancy: The Role of Dark CO(2) Fixation

Dark CO₂ fixation in Gladiolus X gandavensis Van Houtte cormels increases during the break of dormancy by low-temperature storage or by cytokinins. The in vitro activities of phosphoenolpyruvate carboxylase and phosphoenolpyruvate carboxykinase in preparations from dormant and nondormant cormels were compared with dark fixation rates in vivo. The distribution of ¹⁴C-label in the carboxylation products in dormant, nondormant, water-imbibed, and benzyladenine- and abscisic acid-treated cormels was compared by pulse-chase experiments. Dormant cormels have more label in malate and less in citrate and amino acids. Malate utilization in dormant cormels is slower than in nondormant ones. Citrate and glutamine accumulate in dormant cormels in inactive pools. Benzyladenine induces in dormant cormels changes similar to cold storage. Dark fixation is among the first reactions which are activated during the break of dormancy by both benzyl adenine and cold storage.     

The effect of dormancy on the heat shock response in gladiolus cormels

Cormels of Gladiolus X gandavensis Van Houtte respond to heat shock by an induced synthesis of heat shock proteins. Synthesis of some of the non-heat shock proteins is concomitantly reduced. The ability of dormant cormels to synthesize heat shock proteins (hsps) and to repress the synthesis of non-hsps is greater than that of nondormant ones. A hsp of apparent molecular weight 68 kilodaltons is synthesized only in dormant cormels or in cormels that lost their dormancy after long storage at 25°C. The synthesis of hsps at 40°C, but not at 25°C, is promoted by abscisic acid in nondormant cormels. Methionine incorporation into hsps declines after a 4-hour incubation period at 40°C. Induction of hsps is stronger if exposure to extreme temperature is done gradually.     

A mathematical model describing the combined effect of exposure time and temperature of hot-water treatments on survival of gladiolus cormels

Gladiolus cormels of five cultivars were given hot-water treatments at 50.0°C, 52.5°C, 55.0°C or 57.5°C for different exposure times. Survival of cormels was determined. A mathematical model to describe the combined effect of exposure time and temperature on cormel death is presented. Consequences of these relationships for the practical application of hot-water treatments to control cormel-borne Fusarium oxysporum f.sp. gladioli are discussed.     

The production of callus capable of plant regeneration from immature embryos of numerous Zea mays genotypes

In the summer of 1983, immature embryos from 101 selfed inbred lines and germplasm stocks of Zea mays L. were examined for their ability to produce callus cultures capable of plant regeneration (regenerable cultures) using a medium with which some limited success had previously been obtained. Forty-nine of the genotypes (49%) produced callus which visually appeared similar to callus previously cultured and shown to be capable of plant regeneration. After five months, 38 of these genotypes were alive in culture and plants were subsequently regenerated from 35 (92%) of them. No correlation was observed between plant regeneration and callus growth rate, the vivipary mutation (genes vp1, 2, 5, 7, 8 and 9), or published vigor ratings based on K⁺ uptake by roots. When F₁ hybrid embryos were cultured, 97% of the hybrids having at least one regenerable parent also produced callus capable of plant regeneration. No regenerable cultures were obtained from any hybrid lacking a parent capable of producing a regenerable callus culture.In the summer of 1984, immature embryos from 218 additional inbred lines and germplasm stocks were plated and examined for their ability to produce regenerable callus cultures on media containing altered micronutrient concentrations, 3,6-dichloro-o-anisic acid (dicamba), glucose, and elevated levels of vitamin-free casamino acids and thiamine. Of these genotypes 199 (91%) produced callus that was regenerable in appearance. In the 1984 study, plant regeneration was noted in many commercially important inbreds, including B73, Mo17, B84, A632, A634, Ms71, W117, H99³H95 and Cm105. Thus tissue-culture techniques are now available to obtain callus cultures capable of plant regeneration from immature embryos of most maize genotypes.Abbreviations trade names 2,4-D 2,4-dichlorophenoxyacetic acid - dicamba 3,6-dichloro-o-anisic acid     

In vitro detection of Cornus florida callus insensitive to toxic metabolites of Discula destructiva

Summary Dogwood anthracnose, caused by the fungus Discula destructiva Redlin, is a severe disease of flowering dogwood (Cornus florida L.) and Pacific dogwood (C. nuttallii Aud.). Disease control is inadequate in nurseries and landscapes and absent in the forest, and resistant cultivars are not commercially available. The ability to select tissues insensitive to culture filtrates from D. destructiva in vitro offers a novel and important approach for the selection of dogwood genotypes that are resistant to or tolerant of this devastating fungus. Embryo-derived dogwood callus cultures were established on Murashige and Skoog medium amended with benzyladenine (BA) and either 2,4-dichlorophenoxyacetic acid (2,4-D) or naphthaleneacetic acid (NAA). Selection for insensitivity to D. destructiva metabolites was done by placement of individual cultures on media amended with progressively higher concentrations of a partially purified culture filtrate (PPCF) containing lowmolecular-weight compounds. Following this selection process, cultures were challenged in a dose-response format with PPCF to determine whether the sensitivity of the callus to the culture filtrate had changed. During the selection period, the fresh weight of callus grown on medium containing 2,4-D and amended with PPCF was always less than that of callus grown on medium amended with the same concentration of potato-dextrose broth (PDB, negative control). Fresh weight of callus was greater on medium containing NAA amended with PPCF than on medium with the same concentration of PDB. Callus selected in the presence of NAA showed decreased sensitivity to toxic metabolites at higher concentrations of culture filtrate. The in vitro system described may assist in the identification of disease-resistant germplasm important to the long-term survival of flowering dogwood.     

DNA Sequence of Genes for Detoxification of Fusaric Acid, a Wilt-inducing Agent Produced by Fusarium Species

Isolation and nucleotide sequence determination of fusaric acid-detoxification genes are described in this paper. For screening the genes, bacteria collected from soil were positively selected in a selective medium containing fusaric acid. The capability of fusaric acid-resistant isolates to detoxify the toxin was assayed by examining the survival of tomato callus cells in culture filtrates prepared from the bacterial culture, in the presence of fusaric acid. The isolate (HY-1) showing the highest detoxification was selected and identified as Klebsiella oxytoca. Chromosomal DNA of this isolate was digested with Bam HI and shotgun-cloned to fusaric acid-sensitive E. coli. The DNA fragment carrying fusaric acid-detoxification genes was further shortened by enzyme digestion and the open reading frames in the fragment were analyzed by determining total nucleotide sequences of the fragment. Finally, three open reading frames were shown to be essential for expressing the detoxification of fusaric acid. These frames possessed a single promoter sequence at the upstream region of the first open reading frame. Northern blot analysis showed that these genes were polycistronically transcribed to express the fusaric acid detoxification, strongly supporting th results of DNA sequence analysis.     

Cloning of fusaric acid-detoxifying gene from Cladosporium werneckii: a new strategy for the prevention of plant diseases

Fusaric acid-detoxifying gene from Cladosporium werneckii was cloned in Escherichia coli. The detoxification of fusaric acid was confirmed chemically by gas chromatography and biologically by using tomato callus cells. The damage caused by fusaric acid was dramatically diminished in tomato cuttings pretreated with E. coli cells containing the cloned plasmid. The findings suggest that genetically engineered microbes could be applicable to the protection of plants from diseases caused by fusaric acid-producing pathogens.     

Evaluation of 41 elite and exotic inbred Sorghum genotypes for high quality callus production

Interest is high in the genetic study and improvement of sorghum (Sorghum bicolor L. Moench), a crop of worldwide agronomic importance. The ability to initiate and maintain high quality (pigmentless, mucilage-free, fast growing, type II) callus cultures from a variety of sorghum genotypes is important for certain tissue culture-based genetic studies. The objective of this study was to identify high-quality callus-producing genotypes from a group of 41 diverse inbred sorghum lines. Callus cultures of 20 elite inbred sorghum genotypes and 21 inbred genotypes of exotic background were initiated from immature inflorescences. The cultures were subjected to several cycles of subculturing with selection for high quality callus growth, then rated for the callus quality traits pigment/tannin production, mucilage production, embryogenesis, and friability. Genotypic effects on each of the traits was highly significant. The range in quality of callus produced by different sorghum genotypes was large. Based on mean ratings assigned for each of the traits, 7 elite inbred genotypes and 5 nonelite genotypes were identified as producers of high quality callus.     

Fertile wheat (Triticum aestivum L.) regenerants from protoplasts of embryogenic suspension culture

We report regeneration of fertile, green plants from wheat (Triticum aestivum L. cv. Aura) protoplasts isolated from an embryogenic suspension initiated from somatic early-embryogenic callus. The present approach combines the optimization of protoplast culture conditions with screening for responsive genotypes. In addition to the dominant effect of the culture media, the increase in fresh mass and the embryogenic potential of somatic callus cultures varied considerably between the various genotypes tested. Establishment of suspension cultures with the required characters for protoplast isolation was improved by reduction of the ratio between cells and medium and by less frequent (monthly) transfer into fresh medium. A new washing solution was introduced to avoid the aggregation of protoplasts. However, the influence of the culture medium on cell division was variable in the different genotypes. We could identify cultures from cultivar Aura that showed approximately a 9% cell division frequency and morphogenic response. The protoplast-derived microcolonies formed both early and late-embryogenic callus on regeneration medium and green fertile plants were obtained through somatic embryogenesis. The reproducibility of plant regeneration from protoplast culture based on the cultivar Aura was demonstrated by several independent experiments. The maintenance of regeneration potential in Aura suspension cultures required establishment of new cultures within a 9-month period.     

Somatic embryogenesis in pearl millet (Pennisetum glaucum): Strategies to reduce genotype limitation and to maintain long-term totipotency

Three genotypes of Pearl millet were screened in vitro for induction of embryogenic callus, somatic embryogenesis and regeneration. Shoot apices excised from in vitro germinated seedlings or immature embryos isolated from green house established plants were used as primary explants. The frequency of embryogenic callus initiation was significantly higher in shoot apices in comparison with immature zygotic embryos. Moreover, differences between genotypes were minimal when using shoot apices. Friable embryogenic calli (type II) developed on the initial nodular calli after 1 to 3 months of culture. The frequency of type II callus is related to the composition of the maintenance medium and they were more often found in ageing cultures. The transfer of embryogenic calli onto auxin-free medium was sufficient for inducing somatic embryo development in short-term culture (3 months) while a progressive loss in regeneration potential was observed with increasing time of subcultures. Maturation of embryogenic calli on medium supplemented with activated charcoal, followed by germination of somatic embryos on medium supplemented with gibberellic acid, restored regeneration in long-term cultures. This revised version was published online in June 2006 with corrections to the Cover Date.     

A preliminary investigation of ursolic acid in cell suspension culture of Salvia officinalis

Callus and suspension cultures of two genotypes and two morphological forms (friable and compact) were established on MS medium supplemented with 10.47 μM NAA and 4.5 μM BA. Biomass increase in 14-day-culture was calculated and ursolic acid (UA) content was determined by HPLC and MS. The growth rate and UA accumulation was found to be significant in the two genotypes. The compact biomass of both genotypes demonstrated a much slower growth rate and a lower UA accumulation than the friable biomasses. The accumulation of UA in suspension culture was constant in time when derived from the friable callus but it declined, when derived from the compact callus. This revised version was published online in June 2006 with corrections to the Cover Date.     

Screening of diploid Medicago sativa germplasm for somatic embryogenesis

Nineteen accessions of diploid Medicago sativa L. belonging to the four subspecies sativa, caerula, falcata and xvaria were screened for their ability to produce somatic embryos on hypocotyl-derived callus. Two medium protocols were used in this study, a three-step sequence with exposure of the callus cultures to a high 2,4-D concentration and a two-step sequence without exposure to a high 2,4-D concentration. Considerable variation for callus proliferation was observed. In general, the diploid M. sativa accessions showed poor regenerability and it was not possible to correlate high regeneration frequencies with a particular germplasm source. It was, however, possible to identify regenerable genotypes in all four subspecies. One falcata accession produced somatic embryos on the callus induction media at high frequencies. This response was also obtained with a few genotypes from one xvaria accession. All regenerable plants were maintained as shoot cultures and were able to form somatic embryos on petiole-derived calli.Abbreviations BA 6-benzyladenine - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indole-3-acetic acid - 2iP iso-pentyladenine - NAA -naphthaleneacetic acid Contribution No. 772 Ottawa Research Station     

Polysaccharides of cell cultures of Silene vulgaris

Callus and suspension cultures of campion (Silene vulgaris) produced pectin polysaccharides, similar in structure to the polysaccharides of intact plants. The major components of the pectins were D-galacturonic acid, galactose, arabinose, and rhamnose residues. The maximum content of pectins was found in callus. The monosaccharide composition of arabinogalactans isolated from cells and a culture medium of callus cultures were similar, with the ratio between arabinose and galactose of 1: (2.3-6.5) being retained. The arabinogalactans from the cells and culture medium of the suspension cultures also had a similar structure, and the arabinose to galactose ratio was 1: (1.5-1.8). In contrast to the callus cultures, the suspension cultures produced arabinogalactans with an increased content of arabinose residues and a decreased content of galactose residues. The greatest content of arabinogalactan was detected in the culture medium of the suspension cultures.     

Marker proteins for embryogenic differentiation patterns in pea callus

Polypeptide pattern alterations during somatic embryogenesis were investigated using callus cultures of two Pisum sativum genotypes. Both genotypes show the formation of two different callus lines from the same explant after six to eight weeks in culture: a nodular yellowish callus line, which forms somatic embryoids in suspension cultures (e⁺) and a white compact callus line with no regenerative capacity (e^–). The cytosol proteins of the two different callus lines were separated in a semi-preparative two-dimensional system and the polypeptide patterns were compared. Two protein bands were found (P1: M_r=45000 D, pI=7.0–7.1; P2: M_r=7000 D, pI=<4.5), which were characteristic of the putatively embryogenic (e⁺) callus line in all tissues investigated (two genotypes × two explant sources). These proteins found in nodular (e⁺) pea cultures are very similar to two proteins found in Daucus carota suspension cultures preceding the formation of somatic embryos.Abbreviations BA 6-benzyl-aminopurine - Bistris 2-(bis(2-hydroxyethyl)imino)-2-(hydroxymethyl)-1.3-propanediol - PAGE polyacrylamide gel electrophoresis - pI isoelectric point - TCA trichloroacetic acid - Tris tris(hydroxymethyl)-aminomethane     

Plant regeneration from sugarbeet (Beta vulgaris L.) hypocotyls cultured in vitro and flow cytometric nuclear DNA analysis of regenerants

A simple and reproducible protocol for regeneration of sugarbeet plants from hypocotyl expiants derived from 21 day-old-seedlings has been developed. Expiants were cultured on MS medium containing 0.3 mg/l N6-Benzylaminopurine, 0.1 mg/l Naphthalene Acetic Acid, 50 mg/l adenine and 0.5% (w/v) fructose, 0.5% (w/v) sucrose and 0.5% (w/v) glucose to induce the formation of organogenic calli (2.3% to 46.5% organogenic efficiency, depending on populations). Shoot formation was induced in callus cultures of more than 1600 genotypes. Physiological age affected culture response and different genotypes had different temperature optima for organogenesis. Following transfer of regenerated plants to the greenhouse, DNA determinations were made to study the stability of ploidy. Differences in ploidy were observed in plants derived from both shortterm and long-term callus cultures; diploid true-to-type regenerants were 96% and 83%, respectively, from shortterm and long-term callus cultures.Abbreviations MS Murashige and Skoog medium - BAP N6-benzylaminopurine - IBA Indolebutyric acid - NAA Naphthalene acetic acid - TIBA 2,3,5 triiodobenzoic Acid - GM Germination Medium - IM Induction Medium - RG Regeneration Medium - RM Rooting Medium