In vitro selection of alfalfa plants resistant to Fusarium oxysporum f. sp. medicaginis

Summary From two lines of Medicago sativa characterized by a high regeneration capability, calli resistant to culture filtrate of Fusarium oxysporum f. sp. medicaginis have been selected. In these calli regeneration capability was greatly reduced and only one plant per callus was recovered. Regenerated plants have been evaluated for resistance to culture filtrate and for in vivo resistance to the pathogen. Three plants out of eight were resistant to the fungus and a high correlation between resistance to culture filtrate and in vivo resistance was observed.Research work supported by C.N.R., Italy. Special grant I.P.R.A. Subproject 1, paper no. 1468     

In vitro selection of yellow passion fruit genotypes for resistance to <Emphasis Type="Italic">Fusarium</Emphasis> vascular wilt

Fusarium vascular wilt (caused by Fusarium oxysporum f. sp. passiflorae) is a limiting factor in the cultivation of yellow passion fruit (Passiflora edulis). Since there is no effective and economically viable control available, development of resistant or at least tolerant cultivars are in demand. A number of procedures have been used for the initial selection of plant genotypes resistant to various fungal pathogens by means of a fungal culture filtrate or purified toxin. In this study, seeds and in vitro-grown plantlets of passion fruit were screened with different concentrations of either Fusarium oxysporum f. sp. passiflorae (FOP) culture filtrate (0, 20, 30, 40 or 50%, v/v) or fusaric acid (0.10, 0.20, 0.30 or 0.40 mM) supplemented in Murashige and Skoog (MS) basal media. Subsequently, selected plants were inoculated with a conidial suspension of FOP to assess correlation between in vivo and in vitro responses. In vitro sensitivity to the selective agents and the resistance response to the pathogen were also compared. Root growth was markedly influenced by FA, culture filtrate, and conidial suspension culture treatments. Observations indicated that roots were primary targets for attack by F. oxysporum. Successful in vitro selection of resistant genotypes by both FA and culture filtrate treatments suggested that this strategy was viable for accelerating breeding of passion fruit for resistance to the Fusarium vascular wilt.     

Selection for resistance to filtrates of Fusarium spp. in embryogenic cell suspension culture of Medicago sativa L.

A highly embryogenic cell suspension of alfalfa derived from a genotype sensitive to Fusarium oxysporum was successfully used for selection in vitro for resistance to culture filtrates of F. oxysporum, F. solani and F. avenaceum. Fifty two stable resistant cell lines were obtained and 500 plants regenerated from them. Among the 167 regenerants tested under glass there were 12–20% more plants with increased resistance to pathogens than in the group of plants regenerated from a control cell line. It was also found that the cell suspension cultures derived from genotypes of alfalfa with increased resistance to Fusarium spp. better tolerated filtrates of the pathogen. The results of a comparison of virulence of individual isolates of several species of Fusarium with toxicity of their filtrates to plants in vivo and in cell cultures were not unequivocal.     

Effects of Alternaria alternata f.sp. lycopersici toxins on pollen

Summary Effects of the phytotoxic compounds (AAL-toxins) isolated from cell-free culture filtrates of Alternaria alternata f.sp. lycopersici on in vitro pollen development were studied. AAL-toxins inhibited both germination and tube growth of pollen from several Lycopersicon genotypes. Pollen from susceptible genotypes, however, was more sensitive for AAL-toxins than pollen from resistant plants, while pollen of species not belonging to the host range of the fungus was not significantly affected by the tested toxin concentrations. AAL-toxins elicit symptoms in detached leaf bioassays indistinguishable from those observed on leaves of fungal infected tomato plants, and toxins play a major role in the pathogenesis. Apparently, pathogenesis-related processes and mechanisms involved in disease resistance are expressed in both vegetative and generative tissues. This overlap in gene expression between the sporophytic and gametophytic level of a plant may be advantageously utilized in plant breeding programmes. Pollen may be used to distinguish susceptible and resistant plants and to select for resistances and tolerances against phytotoxins and other selective agents.     

Tomato-Fusarium oxysporum f. sp. lycopersici Interaction: "in vitro" Analysis of Several Possible Pathogenic Factors

The behaviour of Tomato cultures from known resistant and susceptible cultivars and lines was examined for callus growth on culture media containing increasing concentrations of Fusarium oxysporum f. sp. lycopersici race 1 culture filtrate and phytoalexin synthesis elicited by Fusarium cell wall components. A strict correlation was found between in vivo resistance to the fungus and in vitro hypersensitive response and phytoalexin induction. On the other hand in vitro tolerance to toxic filtrate does not seem in this case a good indicator of in vivo resistance to the pathogen.     

Algal filtrate: a low cost substitute to synthetic growth regulators for direct organogenesis of embryo culture in <Emphasis Type="Italic">Jatropha curcas</Emphasis> (Ratanjyot)

Jatropha curcas, the energy plant has attained great attention in recent years because of its biodiesel production potential and medicinal value. This makes it imperative to search for techniques for its rapid propagation. Our research communication has shown for the first time direct organogenesis without callus formation from embryo culture of Jatropha. All previous reports embody callusing before further propagation and use of whole seeds. We also report the very economical protocol for J. curcas using cyanobacterial culture filtrate (Aulosira fertilissima) in place of chemical hormones giving this paper a cutting edge to in vitro propagation of J. curcas. The result showed that the number of days taken for shoots and root induction was quicker by adding the cyanobacterial filtrate and shoot and root length was comparatively higher than the other treatment with synthetic plant growth regulator. The same trend was found for chlorophyll a and b. No such report previously has ever focused on the use of cyanobacterial filtrate on in vitro germination of J. curcas embryo to regenerate plants at a faster rate. Ex vitro rooting is a new approach, which will reduce the time for regeneration still further, is an area that is being presently tried out.     

In vitro selection at cellular level for red rot resistance in sugarcane (<Emphasis Type="Italic">Saccharum</Emphasis> sp.)

In the present study, in vitro selection technique using pathogen culture filtrate of Colletotrichum falcatum Went was employed with the aim to identify associations (if any), between selection at the cellular and plant level for red rot resistance in sugarcane (Saccharum sp.). Five to eight months old sugarcane calli of genotypes CoJ 88 and CoJ 64 were screened in vitro against pathogen culture filtrate for two selection cycles. Effect of pathogen culture filtrate on callus survival and/or proliferation was observed to be directly related to its concentration in the selection media. Calli survived and exhibited further proliferation at 5, 10 and 15% v/v pathogen culture filtrate concentrations whereas, at higher concentrations (20 and 25% v/v) proliferation was completely inhibited. Shoot regeneration percent was higher in calli selected on 5% pathogen culture filtrate concentration than those selected on 10 and 15% concentrations. In vivo screening of field transferred somaclones against two pathtypes (Cf 03 and Cf 08) showed considerable variation for red rot resistance. Somaclones regenerated from resistant and/or tolerant calli exhibited better resistance than the parental genotypes. The results indicated that in vitro selection for red rot resistance was effective and expressed when somaclones were screened in the field. This indicated a positive association between in vitro and in vivo methods of selection for disease resistance in sugarcane.     

Evaluation of soybean resistance to Phialophora gregata culture filtrate in tissue culture

Summary Resistance to the fungal pathogen, Phialophora gregata (Allington and Chamberlain) W. Gams, the cause of brown stem rot (BSR) in soybean [Glycine max (L.) Merr.], is an important trait for cultivars grown in the northern USA. A novel tissue culture method was developed where ten soybean cultivars were differentiated on the ability of their excised cotyledons to remain green and initiate callus in a tissue culture medium containing P. gregata culture filtrate. Cultivar BSR classifications by the cotyledon method corresponded to greenhouse root-dip assay classifications in 80%, 100%, and 90% of the three P. gregata isolate treatments. Another method, employing pieces of somatic callus exposed to the culture filtrate, had a 70% average correspondence to the greenhouse results. Physiologic specialization was demonstrated in parallel in vivo/in vitro assays for the first time. These data suggest that the cotyledon method would accurately identify soybean lines resistant to certain aberrant or wild-type P. gregata isolates.     

Production of normal,germinable and viable pollen from in vitro-cultured maize tassels

Summary Immature tassel meristems (1.0–1.5 cm long) of Zea mays L. inbred, Oh43, and single cross hybrid, Se60, cultured on a nutrient liquid medium underwent extensive development through to maturity and produced normal, mature, trinucleate pollen grains. The grains germinated on nutrient agar and on receptive silks and also produced viable kernels. No differences were observed between in vitro-produced pollen and in vivo pollen (pollen from greenhouse-grown plants) in characteristics such as pollen size, in vitro and in situ germination, and pollen tube growth in vitro. The kernels produced with in vitro pollen grew into mature plants (in vitro plants) which were similar to in vivo plants (plants produced with in vivo pollen), with no significant differences for all the morphological characteristics measured, and no phenotypic and cytological abnormalities. Gel electrophoresis of polypeptides revealed no major differences between in vitro and in vivo seedlings. This demonstration of fertilization and production of normal, uniform plants with pollen from cultured tassels has significant potential in basic and applied research studies.     

Isolation of disease-tolerant cotton (Gossypium hirsutum L. cv. SVPR 2) plants by screening somatic embryos with fungal culture filtrate

We report an in vitro selection method that has led to isolation of Fusarium wilt and Alternaria leaf spot disease-tolerant plantlets in cotton (Gossypium hirsutum L. cv. SVPR2). Embryogenic callus was isolated from hypocotyl explants of cotton cultured on 5–50% Fusarium oxysporum culture filtrate-fortified callus induction medium. Somatic embryos tolerant to fungal culture filtrate (FCF) were isolated from this embryogenic callus on somatic embryo regeneration medium fortified with 40% FCF. Sixteen plantlets were selected as FCF-tolerant from 34 somatic embryos tested, which corresponds to about 47% success rate. The FCF-tolerant plants were analyzed for disease tolerance by challenging them with spores of F. oxysporum and Alternaria macrospora. Four plants were selected as F. oxysporum tolerant from a total of 24 plants tested. The selected plants showed an enhanced survival rate compared with the control when they were grown in earthen pots inoculated with 1 × 10⁵ spores/mL of F. oxysporum. From the FCF-tolerant plants, another nine randomly selected plantlets were challenged with spores of A. macrospora in order to test their tolerance to Alternaria leaf spot disease. The number of lesions per leaf significantly decreased from 8.2 to 0.9 and the lesion lengths were also reduced from 2.8 to 1.2 mm per leaf spot in these plants. Electrophoresis analysis of extracellular proteins from the FCF-tolerant plants showed enhanced secretion of proteins in the range of 24–36 kDa. Isozyme analysis by of FCF-tolerant plants by using native gels showed the presence of chitinase. Quantitative analysis showed that there was 13-fold increase in a chitinase activity in the selected FCF-tolerant plants compared to the control plants. Our results show that over-expression of chitinase enzyme leads to enhanced disease resistance against F. oxysporum and A. macrospora.     

Pollen-pistil interaction in maize: effects on genetic variation of pollen traits

Various factors (pollen diameter, in vitro germination and tube length, in vivo growth rate in selfed and nonselfed styles) which could possibly contribute to the competitive ability of pollen were investigated on 30 Zea mays L. inbred lines. The only factor with which pollen diameter was positively correlated was in vitro pollen-tube growth. Traits related to the early stages of growth (in vitro germination, in vitro tube length, early in vivo pollen growth rate) were all positively correlated with each other, and these early characteristics were negatively correlated with late in vivo tube growth rate, which is largely influenced by the stylar genotype.     

<Emphasis Type="Italic">In vitro</Emphasis> selection and regeneration of chrysanthemum (<Emphasis Type="Italic">Dendranthema grandiflorum</Emphasis> Tzelev) plants resistant to culture filtrate of <Emphasis Type="Italic">Septoria obesa</Emphasis> Syd

Callus cultures derived from leaf segments of chrysanthemum cultivar ‘Snow Ball’ which was susceptible to Septoria obesa were successfully used for in vitro selection for resistance to this pathogenic fungus. Resistant cell lines were selected by culturing callus on growth medium containing various concentrations of S. obesa filtrate. Resistant calluses obtained after two cycles (30 d each cycle) of selection were used for plant regeneration. About 30% of the plants regenerated from the resistant calluses and 70–80% of the plants raised from cuttings had acquired considerable resistance against the pathogen in the field. No phenotypic variation was observed in the selected regenerates.     

In Vitro selection of groundnut cell lines fromCercosporidium personatum culture filtrates and regeneration of resistant plants through cell culture

Cell suspensions derived from immature leaves of the groundnut (Arachis hypogaea L.) were cultured in the presence and absence ofCercosporidium personatum pathotoxic culture filtrates. Cell viability and reactions of cell lines were determined after exposure to various concentrations (25–100%, v/v) of the filtrates. Cell lines have been selected for resistance to the toxin(s) produced byC. personatum. Selected cell lines were used for plant regeneration on regeneration media containingC. personatum culture filtrates. Plant regeneration frequency was found to be low in long-term cultures, whereas it was high in short-term cultures. The selfed progeny of the plants regenerated from the resistant cell lines showed resistance to the pathogen in the field. Six out of 82 plants exhibited enhanced resistance in the R₂ generation. The culture filtrate stimulated callus proliferation as well as plant regeneration at lower concentrations, a response that could prove to be very useful for obtaining disease resistant plants throughin vitro selection.     

Monosomic additions in beet (Beta vulgaris) carrying extra chromosomes of B. procumbens

Summary Alien monosomic additions in beet (Beta vulgaris), each carrying one of the nine chromosomes of B. procumbens, were grown in vivo and in vitro to study the effect of the alien chromosomes on plant development. All additional chromosomes caused a reduction of the growth rate in vivo, which, in one case was so strong that some of the plants died as seedlings. In general, the morphological plant characteristics were not very useful to distinguish the addition types; this could have been the results of the wide variation in the recipient parent. However, some developmental characteristics proved to be highly chromosome-specific; for plants in vivo this was annuality, in combination with early or late flowering. If grown in vitro, chromosome specificity was observed for growth type (rosette or elongated stem), occurrence and rate of vitrification, occurrence and morphology of wound callus, formation of additional meristems on the midribs of leaves, formation of roots and a specific reaction to benzylaminopurine (BAP) the medium. Two chromosome types of B. procumbens caused resistance to the beet cyst nematode.     

Evidences of biological control capacities of Streptomyces spp. against Sclerotium rolfsii responsible for damping-off disease in sugar beet (Beta vulgaris L.)

Ten antibiotic-producing Streptomyces spp. isolated from Moroccan soils were evaluated for their ability to inhibit in vitro Sclerotium rolfsii development. Four isolates having the greatest pathogen inhibitory capabilities were subsequently tested for their ability to inhibit sclerotial germination in sterile soil. This test was carried out by using biomass inoculum, culture filtrate, and spore suspension of the isolates as treatment. Treatment with biomass inoculum and culture filtrate gave the highest inhibition of sclerotia. Biological control tests against Sclerotium rolfsii damping-off of sugar beet seeds showed that the selected Streptomyces isolates reduced significantly the disease severity, the J-2 isolate being the more potent. In addition, treatment with the isolate J-2 resulted in a significant increase (P ≤ 0.05) in seedling development compared to the control. All antagonistic Streptomyces selected here were able to grow in the rhizosphere soil from infected sugar beet culture.     

In vitro culture response of common bean explants to filtrate from Pseudomonas syringae pv. Phaseolicola and correlation with disease resistance

Summary The in vitro culture responses from different explants of a race-specific resistant cultivar (Red Mexican) and a racesusceptible cultivar (Palme?a) to halo-blight pathogen (Pseudomonas syringae pv. phaseolicola were studied. Two kinds of filtrate obtained from a phaseolotoxin producer wild type and a non-producer mutant of P. syringae pv. phaseolicola race-7 were used. Callus formation of Red Mexican was significantly reduced in the presence of phaseolotoxin. Bud-shoot growth was more sensitive than callus formation to other metabolites present in the pathogen filtrate, but the presence of phaseolotoxin in the media showed a positive correlation between resistance to halo blight race-7 pathogen and bud-shoot growth. Our results indicate that differential in vitro responses are influenced by the plant genotype and by the metabolite composition and concentration of the filtrate.     

Towards the biological control of fungal and bacterial diseases of tomato using antagonistic Streptomyces spp.

This investigation was designed to explore the potential of microbial antagonism in the control of some tomato diseases including bacterial, Fusarium and Verticillium wilts; early blight; bacterial canker. Three Streptomyces spp. were used: S. pulcher, S. canescens and S. citreofluorescens.The in vitro studies showed that an 80% concentration of the culture filtrate of either S. pulcher or S. canescens significantly inhibited spore germination, mycelial growth and spotulation of Fusarium oxysporum f.sp. lycopersici, Verticillium albo-atrum and Alternaria solani. The same concentration of filtrate of either S. pulcher or S. citreofluorescens was detrimental to the bacterial populations of Clavibacter michiganensis subsp. michiganensis and Pseudomonas solanacearum.The in vivo studies involved different treatments: soaking tomato seeds in filtrate of the antagonist prior to sowing, inoculation of the soil with the antagonist 7 days before sowing, and coating of tomato seeds with spores of the antagonist before sowing. The seed-coating treatment was the most effective in controlling all the pathogens at 42 and 63 days after sowing. Soil inoculation with the antagonist 7 days prior to sowing was less effective in controlling the tomato pathogens as compared to seed-coating. The seed-soaking treatment was the least effective in controlling the diseases concerned.The results also revealed that seed-coating with antagonistic Streptomyces spp. significantly improved tomato growth.     

Anther culture with different genotypes of opium poppy (Papaver somniferum L.): effect of cold treatment

This study concerns anther culture and the production of microspore-derived calluses and plants of the opium poppy (Papaver somniferum L.). It was confirmed that growth regulators were necessary for microspore callus production. Cold treatment (7 d at 7°C) of the buds prior to culture lead to a twofold increase in the frequency of responsive anthers and in the number of calluses per 100 anthers plated. Callus was produced from cultured anthers of several genotypes, covering a wide genetic background. Step by step removal of growth regulators from the culture medium promoted organogenesis and plant regeneration. Most regenerated plants were diploid. The overall process of microspore embryogenesis closely resembled that described in previous reports on somatic callus production and plant regeneration from poppy hypocotyls in vitro.     

Different mechanisms of Trichoderma virens‐mediated resistance in tomato against Fusarium wilt involve the jasmonic and salicylic acid pathways

In the present study, we investigated the role of Trichoderma virens (TriV_JSB100) spores or cell‐free culture filtrate in the regulation of growth and activation of the defence responses of tomato (Solanum lycopersicum) plants against Fusarium oxysporum f. sp. lycopersici by the development of a biocontrol–plant–pathogen interaction system. Two‐week‐old tomato seedlings primed with TriV_JSB100 spores cultured on barley grains (BGS) or with cell‐free culture filtrate (CF) were inoculated with Fusarium pathogen under glasshouse conditions; this resulted in significantly lower disease incidence in tomato Oogata‐Fukuju plants treated with BGS than in those treated with CF. To dissect the pathways associated with this response, jasmonic acid (JA) and salicylic acid (SA) signalling in BGS‐ and CF‐induced resistance was evaluated using JA‐ and SA‐impaired tomato lines. We observed that JA‐deficient mutant def1 plants were susceptible to Fusarium pathogen when they were treated with BGS. However, wild‐type (WT) BGS‐treated tomato plants showed a higher JA level and significantly lower disease incidence. SA‐deficient mutant NahG plants treated with CF were also found to be susceptible to Fusarium pathogen and displayed low SA levels, whereas WT CF‐treated tomato plants exhibited moderately lower disease levels and substantially higher SA levels. Expression of the JA‐responsive defensin gene PDF1 was induced in WT tomato plants treated with BGS, whereas the SA‐inducible pathogenesis‐related protein 1 acidic (PR1a) gene was up‐regulated in WT tomato plants treated with CF. These results suggest that TriV_JSB100 BGS and CF differentially induce JA and SA signalling cascades for the elicitation of Fusarium oxysporum resistance in tomato.     

Selection of turmeric callus tolerant to culture filtrate of <Emphasis Type="Italic">Pythium Graminicolum</Emphasis> and regeneration of plants

Root rot disease tolerant clones of turmeric variety Suguna of Curcuma longa L. were isolated using continuous in vitro selection technique against pure culture filtrate of Pythium graminicolum. Large amount of profuse, compact, creamish white callus was obtained from in vivo vegetative bud when cultured on LSBM fortified with 2,4-D (3 mg l⁻¹) after 45 days of culture. Callus was challenged with pure culture filtrate of P. graminicolum to isolate viable callus within 30 days of culture, which was further subjected to pure culture filtrate treatment. After three cycles of treatment, four cell lines which are tolerant to culture filtrate was isolated through continuous in vitro selection and subcultured on regeneration medium LSBM fortified with BAP (4 mg l⁻¹) along with the control non-selected callus to obtain complete plantlets through discontinuous in vitro selection technique. Plants regenerated from tolerant and non-selected calli were screened for disease tolerance by adopting in vitro sick plot technique. The data obtained from this experiment revealed a ratio of 225:49 tolerant: susceptible in vitro clones retrieved from tolerant callus. However, plants regenerated from the CL1a₁ and non-selected calli were susceptible under in vitro sick plot technique. The root rot disease tolerant clones were hardened and established in soil with 90% survival frequency.