Phylogenetic relationships of Fusarium poae based on EF-1 alpha and mtSSU sequences

A molecular phylogenetic analysis of Fusarium poae isolates from South America (Argentina) and Europe (mainly England, Germany, Italy) was performed using 98 F. poae, four Fusarium culmorum, two Fusarium sporotrichioides and one Fusarium langsethiae isolates. Phylogenetic analyses were performed using nuclear (translation elongation factor 1-alpha, EF-1 alpha) and mitochondrial (mitochondrial small subunit rDNA, mtSSU) sequences. Partitioned (each dataset separately) and combined (EF-1 alpha+mtSSU) analyses did not reveal any clear correlations from the inferred branching topology, between the distribution of observed haplotypes and the geographic origin and/or host species. Results from the present study confirmed that isolates from F. poae form a monophyletic group, and the low variability within isolates from a broad geographic range suggests a common lineage history. Among F. poae isolates from Argentina, however, some were found to possess an insert within mtSSU with structural similarities to group IC2 introns. F. poae isolates differing by the presence/absence of a mtSSU insertion were characterized further by analysis of a portion of the Tri5 gene, but this sequence was unable to reveal variability. The presence of this insert only within isolates from Argentina suggests that evolutionary events (insertions/deletions) are probably taking place within the Argentinian F. poae isolates, and that the acquisition of this insert occurred after geographic isolation of the Argentinian and European populations.     

Fusarium rot in cucumber greenhouses of Jiroft region

The present work was done to identify Fusarium species that cause Fusarium rot in greenhouse cucumber crop in Jiroft region (Kerman, Iran), in 2006–2007. During these years, a vast sampling was done from several greenhouses of Jiroft. The plants with rot symptoms as well as the soil samples of greenhouse were transferred to lab. The isolates of plants and soil samples were detached by direct isolation of the infected tissue and soil suspension methods, respectively. Totally 120 isolates were obtained, which were classified into the following six species according to their morphological and physiological characteristics: Fusarium oxysporum, Fusarium solani, Fusarium culmorum, Fusarium monoliforme, Fusarium sambucinum, Fusarium subglutinans. It is the first time that three of these taxons, i.e. F. culmorum, F. monoliforme and F. subglutinan are reported in cucumber of Iran. Pathogenesis studies of the isolates were done by mycelium placement and spore suspension injection methods in sterile soil under greenhouse conditions. Then the disease symptoms were investigated.     

Multilocus sequence analysis of Fusarium pseudograminearum reveals a single phylogenetic species

Fusarium pseudograminearum causes crown rot of wheat in Australia and most other wheat growing regions, but its evolutionary history is largely unknown. We demonstrate for the first time that F. pseudograminearum is a single phylogenetic species without consistent lineage development across genes. Isolates of F. pseudograminearum, F. graminearum sensu lato, and F. cerealis, were collected from four countries and four single copy, nuclear genes were partially sequenced, aligned with previously published sequences of these and related species, and analysed by maximum parsimony and Bayesian inference. Evolutionary divergence varied between genes, with high phylogenetic incongruence occurring between the gene genealogies. The absence of geographic differentiation between isolates indicates that the introduction of new fungal strains to a region has the potential to introduce new pathogenic and toxigenic genes into the native population through sexual recombination.     

Phylogeny and pathogenicity of Fusarium oxysporum isolates from cottonseed imported from Australia into California for dairy cattle feed

A unique biotype of the Fusarium wilt pathogen, Fusarium oxysporum Schlecht. f.sp. vasinfectum (Atk) Sny. & Hans., found in Australia in 1993 is favored by neutral or alkaline heavy soils and does not require plant parasitic nematodes to cause disease. This makes it a threat to 4-6 million acres of USA Upland cotton ( Gossypium hirsutum L.) that is grown on heavy alkaline soil and currently is not affected by Fusarium wilt. In 2001-2002, several shiploads of live cottonseed were imported into California for dairy cattle feed. Thirteen F. oxysporum f.sp. vasinfectum isolates and four isolates of a Fusarium spp. that resembled F. oxysporum were isolated from the imported cottonseed. The isolates, designated by an AuSeed prefix, formed four vegetative compatibility groups (VCG) all of which were incompatible with tester isolates for 18 VCGs found in the USA. Isolate AuSeed14 was vegetatively compatible with the four reference isolates of Australian biotype VCG01111. Phylogenetic analyses based on EF-1α, PHO, BT, Mat1-1, and Mat1-2 gene sequences separated the 17 seed isolates into three lineages (race A, race 3, and Fusarium spp.) with AuSeed14 clustering into race 3 lineage or race A lineage depending on the genes analyzed. Indel analysis of the EF-1α gene sequences revealed a close evolutionary relationship among AuSeed14, Australian biotype reference isolates, and the four Fusarium spp. isolates. The Australian seed isolates and the four Australian biotype reference isolates caused disease with root-dip inoculation, but not with stem-puncture inoculation. Thus, they were a vascular incompetent pathotype. In contrast, USA race A lineage isolates readily colonized vascular tissue and formed a vascular competent pathotype when introduced directly into xylem vessels. The AuSeed14 isolate was as pathogenic as the Australian biotype, and it or related isolates could cause a severe Fusarium wilt problem in USA cotton fields if they become established.     

Multiplex PCR assay for the identification of nivalenol, 3- and 15-acetyl-deoxynivalenol chemotypes in Fusarium

The ability to rapidly distinguish trichothecene chemotypes in a given species/population of the genus Fusarium is important due to significant differences in the toxicity of these secondary metabolites. A multiplex PCR assay, based on primer pairs derived from the Tri3, Tri5 and Tri7 genes of the trichothecene gene cluster was established for the identification of the different chemotypes among Fusarium graminearum, F. culmorum and F. cerealis. Using the selected primers, specific amplification products of 625, 354 and 708 bp were obtained from Fusarium isolates producing nivalenol, 3-acetyl-deoxynivalenol and 15-acetyl-deoxynivalenol, respectively. Moreover, the multiplex PCR was successfully used to identify the chemotype of the Fusarium species contaminating wheat kernels. Four picograms of fungal DNA were found to be necessary to obtain a visible amplification product.     

Detection of Fusarium culmorum in wheat by a surface plasmon resonance-based DNA sensor

A surface plasmon resonance (SPR) sensor based on DNA hybridization has been developed for the detection of Fusarium culmorum, a fungal pathogen of cereals. A 0.57 kbp DNA fragment of F. culmorum was amplified by specific primers and a 25-mer oligonucleotide probe was selected within the sequence of the PCR amplicon. After biotinilation, the probe was immobilized on a streptavidin sensor chip and tested for biospecific interaction with PCR products of F. culmorum. The effect of denaturating agents (formamide and urea) and ionic strength (NaCl) on hybridization efficiency of double-stranded PCR products with the immobilized probe and the specificity of the probe were investigated. The SPR biosensor was successfully used for the detection of F. culmorum in culture material of different strains and in naturally infected wheat samples. Tested on fungal cultures, it showed a good selectivity for F. culmorum against other species of either Fusarium or other fungal genera. A background signal was observed in wheat samples strictly depending on the DNA amount of the testing matrix. Testing 30 ng of durum wheat DNA the detection limit was 0.06 pg of F. culmorum DNA. The developed PCR-SPR assay allowed to detect F. culmorum with sensitivity and specificity higher than gel-electrophoresis analysis.     

Fusarium head blight: distribution in wheat in Latvia

Fusarium head blight (FHB) of wheat has, in recent years, been a very important worldwide disease in intensive growing of cereal. The objectives of this study were to evaluate the occurrence of FHB in wheat in Latvia and to identify the Fusarium species involved. This paper describes the distribution of Fusarium species that were isolated from samples representing winter and spring wheat varieties in Latvia, identified both by the classical morphological analyses of J. Leslie and B. Summerell (2006) and by PCR. The FHB incidence range in winter wheat was 1-20%, in spring wheat was 1-42%. The most significant factor affecting the incidence of fusarial head blight in wheat in Latvia was heightened temperature at the time of an thesis of wheat. In winter wheat 9 Fusarium species caused FHB: F. culmorum, F. avenaceum, F. graminearum, F. equiseti, F. poae, F. oxysporum, F. cerealis, F. sporotrichoides and F. verticillioides were identified by morphological characterization, and 5 were confirmed by PCR-analysis. After experience of 5 years, it can be concluded that the most frequent in winter wheat were F. poae and F. culmorum. In spring wheat from F. culmorum was dominant among 8 Fusarium species. Among 13 varieties of spring wheat, three were sensitive ('Chamsin', 'W 166', 'Azurite') and one was resistant ('Granny') to FHB in conditions of high natural infection in 2009. The monitoring surveys demonstrate a significant presence of FHB in spring wheat in conditions of heightened temperature at the time of flowering in Latvia.     

Distinct electrophoretic isozyme profiles of Fusarium graminearum and closely related species

Cellulose-acetate electrophoresis (CAE) was used to investigate isozyme polymorphisms among different isolates of Fusarium cerealis, F. culmorum, F. graminearum and F. pseudograminearum from around the world. After initial testing of 22 enzymes in three buffer systems for activity and resolution of bands, 12 proved to be appropriate for analysis of the full sample set. Remarkably uniform isozyme patterns were obtained intraspecifically, irrespective of the geographical origin of the isolates or the host/substratum from which they were isolated. This result indicated that isolates within a given species are descendant from a same ancestral population. Comparing the different electrophoretic types (ETs), adenylate kinase (AK), NADP dependent glutamate dehydrogenase (NADP GDH), peptidase B (PEP B), peptidase D (PEP ID) and phosphoglucomutase (PGM) proved to be diagnostic for at least one species examined. However, only PEP D was useful alone as a marker to distinguish the four taxa studied providing a rapid and simple CAE based diagnostic protocol. Cluster analysis of band sharing coefficients grouped the isolates into four distinct groups corresponding to the 4 species studied. Isolates of F. cerealis were clustered between those of F. culmorum and F. graminearum corroborating their known close relationship to both species. For common ETs, the similarity values between F. cerealis and F. culmorum and between F. cerealis and F. graminearum were the same. Furthermore, the similarity values and the resulting phenogram indicated that F. graminearum is more closely related to F. cerealis and F. culmorum than to F. pseudograminearum, thus the morphological similarity of F. graminearum and F. pseudograminearum does not reflect their generic relationship. This fact supports the species status of F. pseudograminearum.     

A molecular based strategy for rapid diagnosis of toxigenic Fusarium species associated to cereal grains from Argentina

Fusarium species are worldwide causal agents of ear rot in cereals. Their toxigenic potential is a health risk for both humans and animals. In Argentina, most identification of these fungi has been based on morphological and cross-fertility criteria which are time consuming and require considerable expertise in Fusarium taxonomy and physiology. DNA based approaches have been reported as rapid, sensitive and specific alternatives to identify the main fumonisin and trichothecene-producing Fusarium species. In this work, we used PCR assays and the partial sequence of TEF1-alpha gene (Translation Elongation Factor-1 alpha) to identify the fumonisin and trichothecene-producing species in Fusarium isolates from diverse regions of Argentina. The relative efficiency and reliability of those methods to improve mycotoxin risk prediction in this country were also assessed. Species-specific PCR assays were targeted toward multicopy IGS (Intergenic Spacer of rDNA units) and on the toxin biosynthetic genes FUM1 (fumonisins) and TRI13 and TRI7 genes (trichothecenes). PCR assays based on FUM1 gene and IGS sequences allowed detection and discrimination of the fumonisin producers Fusarium proliferatum and Fusarium verticillioides. Molecular identification of nonfumonisin producers from Gibberella fujikuroi species complex was possible after determination of TEF1-alplha gene sequences, which indicated the presence of Fusarium subglutinans, Fusarium andiyazi and Fusarium thapsinum. TEF-1 alpha gene sequences also allowed discrimination of the different species of the Fusarium graminearum complex (F. graminearum sensu lato) as F. graminearum sensu stricto, Fusarium meridionale and Fusarium boothii. The last two species belonged to NIV chemotype and were detected for the first time in the subtropical region of Argentina while F. graminearum sensu stricto was DON producer only, which was also confirmed by specific PCR assays based on TRI137/TRI7 genes. Our results indicated that the PCR assays evaluated in this work are reliable diagnostic tools to detect the main toxigenic Fusarium species associated to cereal grains in Argentina. An extensive epidemiological survey based on the approach presented in this work is currently in progress to know the mycotoxigenic hazard of Fusarium species in cereal grains from the subtropical region of Argentina.     

Toxin production by Fusarium culmorum IMI 309344 and F. graminearum NRRL 5883 on grain substrates

The production of deoxynivalenol, acetyl deoxynivalenol and zearalenone by Fusarium culmorum and F. graminearum on autoclave-sterilized grain (maize, rice, wheat and barley) was investigated. Fusarium culmorum produced significantly greater levels of toxins than F. graminearum. The four substrates examined differed in their ability to support toxin production. Toxin production on maize and rice was significantly greater than toxin production on barley or wheat.     

FUM cluster divergence in fumonisins-producing Fusarium species

Fumonisins are polyketide-derived mycotoxins, produced by several Fusarium species, and its biosynthetic pathway is controlled by the FUM cluster--a group of genes exhibiting a common expression pattern during fumonisin biosynthesis. The most common are the B analogues with fumonisin B(1) (FB(1)) being the most prevalent. At least a part of the inter- and intraspecific variation in FBs synthesis level can be explained by the sequence differences inside FUM cluster. The aim of our study was to evaluate the toxin production and sequence variability in FUM genes and intergenic regions among thirty isolates of seven species reported as potential fumonisins producers: Fusarium anthophilum, Fusarium fujikuroi, Fusarium nygamai, Fusarium oxysporum, Fusarium proliferatum, Fusarium subglutinans and Fusarium verticillioides, particularly with respect to FBs synthesis. Fumonisins were produced in high amounts (over 1mg g(-1)) by one isolate of F. subglutinans, three of F. verticillioides and all F. proliferatum isolates except one, regardless of the host organism. The remaining isolates produced low amounts of FBs and two F. verticillioides isolates didn't produce it at all. The lowest variation in amount of toxin produced was found among F. proliferatum isolates. Based on the translation elongation factor 1α (tef-1α) sequence of F. fujikuroi, a species-specific marker was developed. The intergenic region presents similar opportunity for F. nygamai identification. The phylogenetic reconstruction based on FUM1 gene generally reflects the scenario presented by tef-1α sequences. Although the sequence similarities for intergenic regions were lower than in coding regions, there are clearly conserved patterns enabling separation of different subsets of species, including the non-producer species.     

Fusarium fujikuroi associated with stem rot of red‐fleshed dragon fruit (Hylocereus polyrhizus) in Malaysia

Stem rot was recorded as one of serious diseases of red‐fleshed dragon fruit, (Hylocereus polyrhizus), in Malaysia. Fusarium fujikuroi was recovered from stem rot lesion of H. polyrhizus and the species was identified using TEF1‐α sequence and mating study. From maximum likelihood phylogenetic tree using combined TEF1‐α and β‐tubulin sequences, the F. fujikuroi isolates from stem rot were grouped according to three geographical locations, namely Peninsular Malaysia, Sabah and Sarawak. Phylogenetic analysis indicated that F. fujikuroi isolates from stem rot of H. polyrhizus were clustered separately from F. fujikuroi isolates from rice because of intraspecific variation. From amplification of MAT allele‐specific primers, 20% of the isolates carried MAT‐1 allele while 80% carried MAT‐2 allele. From isolates that carried MAT‐1 allele, 65% crossed‐fertile with MP‐C (mating population of F. fujikuroi) tester strain while for MAT‐2 allele, 56% crossed‐fertile with MP‐C. None of the isolates were identified as MP‐D (mating population of F. proliferatum). Pathogenicity test conducted on 40 representative isolates showed that the stem rot symptoms were similar with the symptoms observed in the field, and can be categorized as low, moderate and high aggressiveness, which indicated variation in pathogenicity and virulence among the isolates. This study provides novel findings regarding Fusarium species associated with stem rot of H. polyrhizus and indicated that F. fujikuroi as a new causal pathogen of the disease.     

Development of a highly sensitive nested-PCR method using a single closed tube for detection of Fusarium culmorum in cereal samples

AIMS: The aim of the study was to develop a sensitive detection method of Fusarium culmorum contamination in cereal samples. METHODS AND RESULTS: A nested-PCR method using a single closed tube was developed for the detection of F. culmorum in infected cereal samples. The concentrations of the first primer pair was diluted 10,000 times compared to the concentration used for the second primer pair. Differing annealing temperatures allowed both first and second polymerase chain reaction (PCR) reactions to be performed subsequently in the same closed tube. The detection limit was 5-50 fg of purified target DNA and allowed the detection of 1% infected seeds of wheat in a mixture with uninfected grains. CONCLUSIONS: F. culmorum can be specifically detected in cereal samples by the highly sensitive method of nested-PCR in a single closed tube. SIGNIFICANCE AND IMPACT OF THE STUDY: This work describes the detection of F. culmorum in cereal samples that is approximately 100 times more sensitive than previous PCR methods, involves low risk of cross contaminations between samples, low costs and reduced hands-on time as compared to standard nested-PCR protocols.     

Influence of the interactions among ecological variables in the characterization of zearalenone producing isolates of Fusarium spp

To carry out the physiological characterization of Fusarium graminearum and F. culmorum isolates with regard to its zearalenone producing ability, an in-depth experiment with a full factorial design was conducted. The effects and mutual interactions of temperature, moisture, substrate and isolate on the production of the toxin were studied. The study was done with twelve isolates of Fusarium (7 of F. graminearum and 5 of F. culmorum). The analysis of variance shows that there is a complex interaction of all of these factors, which can influence the relative concentrations of the mycotoxin produced, and hence, the correct physiological characterization of the strain. All the tested cultures were susceptible to invasion by Fusarium. The moisture content of grains (water activity values 0.960, 0.970 and 0.980) did not constitute a limiting factor for fungal growth or ZEA production, but incubation temperature (15 degrees C, 20 degrees C, 28 degrees C, and 32 degrees C) affected the rate of zearalenone synthesis. Very low or undetectable ZEA production was observed at 32 degrees C. All tested isolates showed a characteristic behavior concerning the optimum temperature for ZEA production, which was usually 20 degrees C maintained during the whole incubation period. This finding, which does not agree with other reports obtained with strains from different origins, suggests that there are genetic differences that would explain the particular physiological behavior of each isolate related to the optimal production conditions for ZEA. The existence of significant differences regarding the susceptibility of the assayed cereal grains (wheat, corn and rice) used for ZEA production by the different Fusarium species (F. graminearum and F. culmorum) is described for the first time in this paper.     

Mycotoxin production and cytotoxicity of Fusarium strains isolated from Norwegian cereals

Thirty-four isolates of the eight most common Fusarium species isolated from Norwegian cereals; F. avenaceum, F. culmorum, F. equiseti, F. graminearum, F. poae, F. sporotrichioides, F. torulosum and F. tricinctum were studied for their cytotoxicity and ability to produce mycotoxins. The strains were cultivated on rice, and analysed for trichothecenes (all species), zearalenone (all species), fusarochromanone (F. equiseti), wortmannin (F. torulosum), moniliformin and enniatins (F. avenaceum, F. tricinctum and F. torulosum). The cytotoxicity of the extracts were examined with an (in vitro) MTT-cell culture assay. All F. graminearum and five of seven F. culmorum isolates belonged to chemotype IA, producing deoxynivalenol and 3-acetyl-deoxynivalenol, while the two other F. culmorum strains were nivalenol producers (chemotype II). The F. equiseti isolates and one of the F. poae isolates produced both type A and B trichothecenes, and relatively large quantities of fusarochromanone were detected in the F. equiseti cultures. All Fusarium species studied showed significant cytotoxicity, but with a large variation between species, and also within each species. F. sporotrichioides and F. equiseti showed the highest average cytotoxicity. This revised version was published online in August 2006 with corrections to the Cover Date.     

Development of a PCR assay to detect the potential production of nivalenol in Fusarium poae

Fusarium species can produce mycotoxins, which can contaminate cereal-based food producing adverse effects for human and animal health. In recent years, the importance of Fusarium poae has increased within the Fusarium head blight complex. Fusarium poae is known to produce trichothecenes, especially nivalenol, a potent mycotoxin able to cause a variety of toxic effects. In this study, a specific primer pair was designed based on the tri7 gene to detect potential nivalenol-producing F.?poae isolates. A total of 125 F.?poae, four F.?cerealis, two F.?culmorum, one F.?langsethiae, one F.?sporotrichioides and seven F.?graminearum, plus F.?austroamericanum, F.?meridionale, F.?graminearum sensu stricto and F.?cortaderiae from the NRRL collection were analysed, and only F.?poae isolates gave a positive result for the presence of a 296-bp partial tri7 DNA fragment. Moreover, the primer set was tested from cereal seed samples where F.?poae and other Fusarium species with a negative result for the specific reaction ( F.?graminearum, F.?oxysporum, F.?chlamydosporum, F.?sporotrichioides, F.?equiseti and F.?acuminatum) were isolated, and the expected fragment was amplified. We developed a rapid and reliable PCR assay to detect potential nivalenol-producing F.?poae isolates.     

Interactions between seed-borne wheat pathogens

Fusarium nivale Auct., Fusarium culmorum (W.G.Sm.) Sacc. and Septoria nodorum Berk. were used to inoculate wheat seed either singly or in mixtures. Data collected from glasshouse and field experiments suggest that less pre-emergence death of seedlings and fewer seedlings with lesions occur when F. nivale and F. culmorum are present on the seed together than when F. culmorum only is present. There is also clear evidence that this reduction in disease cannot be attributed to the halving of the spore concentration of each species in the mixture used.     

Characterization of Fusarium spp. associated with pineapple fruit rot and leaf spot in Peninsular Malaysia

Pineapple (Ananas comosus) is one the important fruit crops planted in Malaysia, and this study was conducted to determine Fusarium spp. associated with diseases of the fruit crop as Fusarium is prevalent in tropical countries. Our objective was to identify and characterize Fusarium spp. associated with pineapple fruit rot and leaf spot mainly found on the fruits and leaves in Peninsular Malaysia. Fusarium isolates (n = 108) associated with pineapple fruit rot and leaf spot were characterized by morphological, molecular and phylogenetic analyses, a mating study and pathogenicity testing. TEF‐1α sequence analysis identified Fusarium proliferatum, Fusarium verticillioides, Fusarium sacchari and Fusarium sp. Mating was successful only between tester strains of F. proliferatum and F. verticillioides. Sexual crosses with standard tester strains showed that 82 isolates of F. proliferatum produced fertile crosses with mating population D (Gibberella intermedia) and three isolates of F. verticillioides were fertile with the tester strain of mating population A (Gibberella moniliformis). All isolates were pathogenic, causing pineapple fruit rot and leaf spot, thus fulfilling Koch's postulates.     

Interactions of Fusarium species during prepenetration development

Interspecies interactions between Fusarium avenaceum, Fusarium culmorum, Fusarium graminearum, Fusarium poae, and Fusarium tricinctum were studied during early growth stages of isolates on model surfaces. Additionally, germination and germ tube growth of the pathogens were studied on attached and detached wheat leaves at 10 °C and 22 °C. Two-species interactions between Fusarium isolates during germination and germ tube growth were assessed after 8 hours of incubation. All species except F. tricinctum germinated and grew faster at higher than lower temperature. All species were able to germinate with more than one germ tube per conidium cell; and germination and germ tube growth were faster on leaves than on glass surface. Interactions among Fusarium species during germination and germ tube growth were predominantly competitive with macroconidia-producing species being more competitive. It is concluded that the type of conidia as well as environmental factors influence the competitiveness of Fusarium species during early stages of growth.     

长江流域禾谷镰孢菌群部分菌株系统发育学、产毒素化学型及致病力研究

从采集自长江流域引起小麦赤霉病的禾谷镰孢菌群(Fusarium graminearum clade)菌株中选取了31株,扩增并测定了这些菌株的EF-1α(translation elongation factor)、PHO(phosphate permease)基因序列,利用相关软件进行了系统发育分析。对这些菌株的产毒素化学型进行了分子检测。同时,用两个小麦品种(扬麦158和安农8455)测定了菌株的致病力。系统发育分析表明绝大多数菌株与F.asiaticum聚为一枝,只有一个菌株11027与F.graminearum聚类。30株F.asiaticum中有24株产脱氧雪腐镰孢菌烯醇(deoxynivalenol,DON)和3-乙酰脱氧雪腐镰孢菌烯醇(3-acetyldeoxynivalenol,3-AcDON),另外6株产雪腐镰孢菌烯醇(Nivalenol,NIV)。一株F.graminearum菌株11027产脱氧雪腐镰孢菌烯醇(DON)和15-乙酰脱氧雪腐镰孢菌烯醇(15-acetyldeoxynivalenol,15-AcDON)。在扬麦158上,菌株间的致病力分化较为明显,产NIV毒素的菌株致病力普遍较弱,强致病力的菌株都产3-AcDON毒素。结果表明在我国长江流域,产3-AcDON毒素的F.asiaticum是引起小麦赤霉病的优势种群,中抗赤霉病的小麦品种扬麦158可以有效评价菌株的致病力强弱。