Genetic diversity in Fusarium oxysporum f. sp. melonis*

Fusarium oxysporum f. sp. melonis is an important vascular wilt pathogen of melon. Races 1, 2 and 1–2 of this fungus have been identified in Portugal by pathogenicity tests with appropriate hosts. The aim of this research was to examine the relationships between different races of F. o. melonis of Portuguese and French origin through analysis of random amplified polymorphic DNAs (RAPDs). DNA fingerprint profiles were developed for all the accessions. Each isolate showed 5–10 DNA bands with each of the 16 primers employed. A total of 126 bands was obtained. The size of amplified DNA fragments generated with these primers ranged from 0.5 to 3.2 kb. A phenogram based on the Jaccard coefficient of similarity was computed by the unweighed pair group method using arithmetic averages (UPGMA). It was found that Portuguese race 2 is very similar to French race 1, while French race 2 is the most dissimilar being clearly separated from all other races. The genetic diversity of these isolates is also being studied for vegetative compatibility by using the nit mutant system.     

Genetic variability among breeding lines and cultivars of eggplant against Fusarium oxysporum f. sp. melongenae from Turkey

Seventy isolates of Fusarium oxysporum (Schlechtend: Fr.) f. sp. melongenae Matuo and Ishigami (Fomg), the causal agent of eggplant Fusarium wilt, were tested for their interaction with different lines and cultivars to determine whether there was race-specific interaction. Also, a total of 13 cultivars were tested under greenhouse conditions to evaluate the presence of resistance to Fusarium wilt. The disease severity (%) and the area under disease progress curve (AUDPC) for each of the Fomg isolates were calculated by scale values. Results showed that neither of the resistant lines (LS1934 and LS2436) exhibited wilting symptoms, whereas susceptible local cultivars (cvs. ‘Kemer’ and ‘Hadrian’) displayed severe disease symptoms. There was no significant variation in the virulence, indicating the occurrence of a race or races among 70 Fomg isolates tested on resistant lines and susceptible cultivars. This may indicate a genetically homogeneous population structure of Fomg in Turkey. The eggplant cultivars Amadeo, Anatolia, Angela, Brigitte, Corsica, Hawk, Koksal, Nouma, Sharapova and Yula exhibited various degrees of susceptibility to three virulent Fomg isolates, but disease severity for AGR-703 was significantly different and lower among the tested eggplant cultivars, as well as rootstocks. Therefore, it is considered as the most appropriate for rootstock purposes in eggplant cultivations where Fusarium wilt is present in the soil.     

不同提取条件对葡萄叶提取物抑制两种病原菌活性的影响

以黄瓜枯萎病菌和辣椒枯萎病菌作为供试菌种,采用生长速率法对葡萄叶不同溶剂提取物和不同提取方法提取物的抑菌活性进行测定。结果表明,葡萄叶不同溶剂提取物对供试菌种均表现出抗菌效果,并筛选出最佳提取溶剂是95%的乙醇,而最佳提取条件是提取温度40 ℃、提取时间和方式是超声波提取30 min,提取料液比1∶8(g/mL)。     

Genetic diversity in Fusarium oxysporum f.sp. dianthi and Fusarium redolens f.sp. dianthi

Pathogenic isolates were selected representing all known vegetative compatibility groups (VCGs) and races of Fusarium oxysporum sensu lato from Dianthus spp. On basis of differences in the internal transcribed spacer region of the ribosomal DNA, six VCGs were classified as F. oxysporum f.sp. dianthi and four as F. redolens f.sp. dianthi. All VCGs of F. oxysporum f.sp. dianthi were characterized by unique restriction fragment length polymorphisms (RFLPs), unique overall esterase profiles, and unique virulence spectra, supporting a clonal lineage concept. Two VCGs of F. oxysporum f.sp. dianthi nevertheless comprised more than one race, but races within the same VCG shared the same distinct overall virulence spectrum. VCGs belonging to F. redolens f.sp. dianthi also had unique RFLPs and unique virulence spectra, but had grossly identical esterase profiles. Three new races (9, 10 and 11) are described for F. oxysporum f.sp. dianthi, and four for F. redolens f.sp. dianthi. Two races previously considered lost were recovered; race 7 was identified as a member of VCG 0021 of F. oxysporum f.sp. dianthi while race 3 was identified as a distinct VCG and race of F. redolens f.sp. dianthi. A summary of races and VCGs in F. oxysporum f.sp. dianthi and F. redolens f.sp. dianthi is presented.     

Passive transport of microconidia of Fusarium oxysporum f. sp. dianthi in carnation after root inoculation

Root inoculation of susceptible carnations withFusarium oxysporum f. sp.dianthi induced characteristic unilateral wilt only if root woundings and use of a microconidial suspension had not been combined at the time of inoculation. The combination, however, induced atypical and sudden stem breaking soon followed by death. In all cases wilt was due to destruction of the xylem. Unilateral wilt appeared to follow sparse natural infection of single roots. Stem breaking was due to destruction of the vascular tissues all around the stem and is ascribed to multilateral infection caused by translocation of microconidia at inoculation through several wounded roots directly into the stem.Microconidia were carried passively 5–10(–10) cm into stems of susceptible and resistant carnations within 24 h both after immersing cut ends of the roots in a conidial suspension and after pouring a suspension on the soil. Passive spore transport is an inoculation artefact which may severely affect interpretation of experimental results; it seems to be unimportant in natural Fusarium wilt development in carnation.Samenvatting Inoculatie van de wortels van vatbare anjers metFusarium oxysporum f. sp.dianthi veroorzaakte de kenmerkende eenzijdige verwelking alleen als wortelbeschadigingen bij de inoculatie niet werden gecombineerd met het gebruik van een suspensie van microconidiën. Die combinatie veroorzaakte namelijk afwijkende symptomen waarbij de planten plotseling omknakten en vervolgens snel afstierven. De verwelking leek in alle gevallen veroorzaakt te worden door afbraak van het xyleem. Eenzijdige verwelking leek te volgen op spaarzame natuurlijke wortelinfecties. Bij omgeknakte planten bleek het vaatweefsel rondom in de stengel aangetast te zijn, hetgeen toegeschreven wordt aan infectie van verschillende kanten van de stengel als gevolg van passief transport van microconidiën bij de inoculatie door verscheidene beschadigde wortels direct de stengel in.Microconidiën werden binnen 24 uur 5–10(–30) cm de stengels van vatbare en resistente anjers ingezogen wanneer de wortels afgesneden en met het uiteinde in een sporensuspensie gehangen werden, maar ook wanneer de suspensie op de grond gegoten werd. Passief transport van sporen is een inoculatie-artefact dat echter belangrijke consequenties kan hebben voor de interpretatie van de resultaten van proeven. Bij de natuurlijke verspreiding vanF. oxysporum in anjers lijkt passief sporentransport van weinig belang.     

Biological control of Fusarium oxysporum f. sp. lycopersici

Fungi known to produce lytic enzymes were used in an attempt to control wilt of tomato caused by Fusarium oxysporum f. sp. lycopersici (FOL). Some of the fungal species (Penicillium oxalicum, Penicillium purpurogenum and Aspergillus nidulans) damaged hyphae of FOL in vitro and reduced the numbers of microconidia in the soil. Treatments with fungi did not result in a reduction in either chlamydospores of FOL in soil or populations of FOL in the rhizosphere of tomato. P. oxalicum was the most effective agent of biocontrol, and it reduced disease severity in both non-autoclaved (20% decrease) and sterile soil. In sterile soil, P. oxalicum reduced disease with different levels of severity (27% decrease at high levels and 50% decrease at low levels). Disease control by A. nidulans and P purpurogenum was only achieved when disease severity was low in sterile soil (55% and 45%, respectively).     

Interactions between Fusarium oxysporum f. sp. tracheiphilum and Meloidogyne spp. in Vigna unguiculata. 1. Effects of different inoculum densities on Fusarium wilt

The effects of chlamydosporesandconidia of Fusarium oxysporum f sp. tracheiphilum at different initial spore concentrations were compared in the wilt-susceptible cowpea cultivar California Blackeye No. 5 (CB5). In glasshouse experiments with one inoculum density of either Meloidogyne incognita or M javanica, chlamydospores resulted in greater incidence and severity of Fusarium wilt than conidia at the same inoculum densities. Wilt symptoms also increased on wilt-resistant cultivar CB3 as inoculum densities of M. javanica were increased. When three cultivars were infested with moderate or high densities of both F. o. tracheiphilum and M. javanica. only CB5 developed sere wilt at either inoculum density. The wilt-tolerant cultivar Grant had mild wilt symptoms in most plants at moderate inoculum densities, and a tenfold increase in inoculum did not increase wilt ratings. CB3. however, had higher incidence and severity of Fusarium wilt symptoms at high inoculum densities, although 60% of the plants survived for 9 weeks.     

Development of specific markers for identification of Indian isolates of Fusarium oxysporum f.sp. ricini

Fusarium oxysporum f. sp. ricini (F. o. ricini) is a ubiquitous soil borne pathogen which causes wilt disease on castor (Ricinus communis L). Rapid and reliable detection of the pathogen is essential for undertaking appropriate and timely disease management measures. Identification based on cultural, morphological characteristics and pathogenicity tests are time-consuming and laborious. Traditional methods are now being increasingly replaced by molecular detection techniques, which are much faster and more specific. In this study we have identified two RAPD markers of 1100?bp and 1350?bp in size which can be amplified by OPJ-14 and OPK-12 primers respectively for detection of F. o. ricini. These two fragments were fully sequenced and two pairs of SCAR primers (For-J14 Fwd/Rev and For-K12 Fwd/Rev) were designed. The specific primer pairs amplified a single band from all F. o. ricini isolates and there was no amplification from another thirteen Fusarium species / subspecies tested. These results clearly demonstrate that the designed SCAR primer pairs can be used consistently to detect F. o. ricini isolates, isolated from the diseased samples or soil samples. To our knowledge this is the first report on generation of SCAR markers for identification of Indian F. o. ricini isolates.     

Dispersal of Formulations of Fusarium oxysporum f. sp. erythroxyli and F. oxysporum f. sp. melonis by Ants

ABSTRACT A natural epidemic of Fusarium wilt on coca (Erythroxylum coca) in Peru prompted the suggestion of possibly using the pathogen Fusarium oxysporum f. sp. erythroxyli as a mycoherbicide against this narcotic plant. During field trials conducted in Kauai, HI, to test the pathogenicity of the coca wilt pathogen, ants were observed removing formulations from test plots. While removal of formulations by ants was considered detrimental with respect to conducting field tests, ant removal was considered potentially beneficial in disseminating the mycoherbicide. Thus, research was initiated to assess the ability of formulation additives to alter the preference of ants for the formulated mycoherbicide. In Hawaii, preference of indigenous ants for removing formulations was tested using three different food bases (rice, rice plus canola oil, and wheat flour [gluten]). Similar tests were conducted at Beltsville, MD, using F. oxysporum f. sp. melonis, in which the formulation based on wheat flour was replaced by a formulation based on canola meal. Formulations based on wheat were preferred by ants in both locations; up to 90% of the wheat plus rice flour granules (C-6) and the wheat gluten plus kaolin granules (pesta) were removed within 24 h, while only 20% of those containing rice without oils were taken. However, when either canola, sunflower (Maryland only), or olive oil was added to the rice formulation, up to 90% of the granules were taken. The formulation based on canola meal was less attractive to ants, as only 65% of the granules were removed within a period of 24 h. Ants showed no preference with respect to presence or absence of fungal biomass. To alter the attractiveness of the C-6 formulation to ants, C-6 was amended with three natural products. Canna and tansy leaves were added to C-6 at a ratio of 1:5 (wt/wt), while chili powder was added at 1:25 or 1:2.5 (wt/wt). Canna, tansy, and the higher rate of chili powder significantly reduced the number of C-6 granules removed by ants. Canna and tansy leaves affected neither germination nor sporulation of the mycoherbicide, while the high concentration of chili powder reduced viability of propagules in the formulation. More F. oxysporum f. sp. erythroxyli-type colonies were recovered from inside ant nests (9 cm depth) than from nest surfaces, indicating that ants may distribute the mycoherbicide in the soil profile. Ants passively carried propagules of F. oxysporum f. sp. erythroxyli outside their bodies, as well as either very closely adhering to the outside or within their bodies.     

Pathogenicity and race characterization of Fusarium oxysporum f. sp. phaseoli isolates from Spain and Greece

Virulence (≡ severity of disease) and physiological specialization of nine isolates of Fusarium oxysporum f. sp. phaseoli recovered in El Barco de Avila (Castilla y León, west-central Spain) and of two isolates from Chryssoupolis (Greece) were determined. The susceptibility/resistance response showed by a differential set of common bean cultivars ( Phaseolus vulgaris ) selected at the Centro Internacional de Agricultura Tropical (CIAT) delineated the isolates into two new races: races 6 and 7. The results of pathogenicity tests did not show any significant differences in virulence among the isolates. However, the reactions of several Spanish common bean cultivars indicated the presence of two groups of isolates, highly virulent and weakly virulent, among the Spanish isolates analysed. These results indicate that isolates classified in the same race are not homogeneous with respect to virulence, and suggests that race analysis using the CIAT differential cultivars is insufficient to describe the physiological specialization of F. oxysporum f. sp. phaseoli .     

Genetic structure of Fusarium oxysporum f. sp. cubense in different regions from Brazil

Panama disease, caused by Fusarium oxysporum f. sp. cubense (Foc), is ranked among the most destructive diseases of banana. The use of resistant varieties is the most desirable and effective control measure. Information on the pathogen population structure is essential, as durability of the resistance and effective cultivar deployment are strongly linked to this structure. In this study, 214 Foc isolates from different banana producing states in three regions of Brazil (northeastern, southeastern and southern) were analysed. Initially, nine microsatellite markers (SSR) were tested, which revealed 52 distinct haplotypes distributed in the different geographical regions and cultivars. While amova analysis showed that 68·01% of the total variation occurred within states, correlation between genetic and geographical distances was only found in the southern region. Results indicated that isolates from different states comprise a single population, which is predominantly clonal. When isolates representing different haplotypes were inoculated in four banana cultivars, differences in severity were found, with the high severity values being caused by isolates from haplotypes H7, H31 and H41. The diversity found here points to the need for additional studies, as this characteristic may be related to Foc's evolutionary potential and possibly to its ability to overcome the resistance from breeding programme‐generated cultivars. This is the most comprehensive study on population biology of Foc in Brazil.     

农杆菌介导的西瓜枯萎病菌遗传转化

为获得带GFP标记的西瓜枯萎病菌转化株,用于后期观察病原菌侵染过程,采用农杆菌介导的方法,对西瓜枯萎病菌1号生理小种进行了遗传转化。结果表明:共培养时间为36h,枯萎病菌孢子和农杆菌AGL1比例为1∶1时该菌株的遗传转化效率最高,可以达到117.33个转化子/107个孢子。转化株的孢子、菌丝体及萌发的孢子均能发出稳定而强的绿色荧光。转化株的致病力检测显示其致病力与转化前的野生菌株致病力无明显差异。结果表明本研究获得的带GFP标记的西瓜枯萎病菌转化株可用于观察病菌在西瓜根系的侵染过程。     

Sensitivity of Fusarium oxysporum f. sp. cubense to phosphonate

Phosphonate (0.1 mM) significantly reduced growth of Fusarium oxysporum f. sp. cubense (Foc) race 4 grown at an optimal phosphate concentration of 0.3 mM in vitro. At higher phosphate concentrations, closer to physiological conditions within the plant, the sensitivity of Foc race 4 to phosphonate was greatly reduced, with 25 mM phosphonate required to reduce growth by 50% at 1 mM phosphate. Two isolates of Fusarium oxysporum f. sp. dianthi and another race of Foc, race 1, were shown to be similar to Foc race 4 in their sensitivity to phosphonate, while another species of Fusarium, F. avenaceum , was more sensitive to phosphonate in vitro.     

Interactions between Fusarium oxysporum f. sp. racheiphilum and Meloidogyne spp. in Vigna unguculata. 2. Specificity of different taxa

A California isolate of Meloidogyne javanica increased Fusarium wilt symptoms in cowpea cultivars California Blackeye No. 3 (CB3) (resistant to wilt) and Grant (tolerant) inoculated with each of the three races of Fusarium oxysporum f. sp. tracheiphilum. The same isolate of M. javancia did not similarly increase wilt in wilt-resistant cultivar CB7977 inoculated with two isolates of race 3 of F. o. tracheiphilum. Six of seven isolates of M. javanica caused similar increases in vascular discoloration in cultivar CB3. but one isolate of M. javanica and seven of M. incognita did not. Vascular discoloration rating was positively correlated with galling severity. However, increasing the initial inoculum density, and thus galling index, of one isolate of M. incognita did not increase vascular discoloration. The vascular discoloration ratings for the wilt-susceptible CB5 controls in each experiment were higher than those for the wilt-resistant cultivars infected with M. javanica. It is hypothesized that M. javanica but not M. incognita reduces, but does not eliminate, resistance to all races of F. o. tracheiphilum in cultivars CB3 and Grant.