A PCR-denaturing gradient gel electrophoresis approach to assess Fusarium diversity in asparagus

In North America, asparagus (Asparagus officinalis) production suffers from a crown and root rot disease mainly caused by Fusarium oxysporum f. sp. asparagi and F. proliferatum. Many other Fusarium species are also found in asparagus fields, whereas accurate detection and identification of these organisms, especially when processing numerous samples, is usually difficult and time consuming. In this study, a PCR-denaturing gradient gel electrophoresis (DGGE) method was developed to assess Fusarium species diversity in asparagus plant samples. Fusarium-specific PCR primers targeting a partial region of the translation elongation factor-1 alpha (EF-1 alpha) gene were designed, and their specificity was tested against genomic DNA extracted from a large collection of closely and distantly related organisms isolated from multiple environments. Amplicons of 450 bp were obtained from all Fusarium isolates, while no PCR product was obtained from non-Fusarium organisms. The ability of DGGE to discriminate between Fusarium taxa was tested over 19 different Fusarium species represented by 39 isolates, including most species previously reported from asparagus fields worldwide. The technique was effective to visually discriminate between the majority of Fusarium species and/or isolates tested in pure culture, while a further sequencing step permitted to distinguish between the few species showing similar migration patterns. Total genomic DNA was extracted from field-grown asparagus plants naturally infested with different Fusarium species, submitted to PCR amplification, DGGE analysis and sequencing. The two to four bands observed for each plant sample were all affiliated with F. oxysporum, F. proliferatum or F. solani, clearly supporting the reliability, sensitivity and specificity of this approach for the study of Fusarium diversity from asparagus plants samples.     

Fumonisin B1 production by Fusarium proliferatum strains isolated from Allium fistulosum plants and seeds in Japan

Aims:  To test the fumonisin B₁ - producing ability of Fusarium proliferatum strains isolated from Welsh onion ( Allium fistulosum ) plants and seeds of commercial cultivars in Japan and to examine the applicability of PCR-based assays to discriminate between fumonisin B₁-producing and nonproducing isolates.
Methods and Results:  Fumonisin B₁ levels in 20 Fusarium isolates obtained from Welsh onion plants and seeds of seven commercial cultivars were determined by HPLC. Thirteen of the 20 isolates produced fumonisin B₁. PCR assay with FUM1 gene-specific primers amplified a DNA fragment (700 bp) only from fumonisin-producing isolates.
Conclusions:  Fusarium proliferatum isolates that can produce fumonisin B₁ were often associated with wilted Welsh onion plants and seeds of some commercial cultivars. The PCR assay with FUM1 gene-specific primers has the potential to discriminate between fumonisin B₁-producing and nonproducing isolates.
Significance and Impact of the Study:  This study revealed that F. proliferatum producing fumonisin B₁ is associated with Welsh onion plants and that commercial cultivar seeds may be contaminated with the fungus. PCR amplification of FUM1 gene can be a useful tool for the rapid identification of fumonisin B₁-producing F. proliferatum isolates.     

甘肃大葱贮藏期镰孢菌腐烂病病原鉴定

【目的】大葱在贮藏期频繁发生镰孢菌腐烂病,损失严重。明确该病害病原种类对病害防治具有重要意义。【方法】利用组织分离法对采集自甘肃省兰州市(区)蔬菜市场的16份大葱贮藏期镰孢菌腐烂病病样进行病原物的分离、纯化培养,经单孢分离后根据形态学特征,再结合r DNA-ITS、EF-1a(tef)基因序列分析的方法进行鉴定。【结果】共分离得到80株镰孢菌,经鉴定分属3个种,即层出镰孢菌(Fusarium proliferatum)、尖孢镰孢菌(F.oxysporum)和燕麦镰孢菌(F.avenaceum),其中层出镰孢菌为大葱镰孢菌腐烂病的优势致病菌,分离频率为52.50%。对兰州白葱不同部位进行致病性测定,结果表明层出镰孢菌对大葱鳞茎的致病力最强,而燕麦镰孢菌对大葱鳞茎的致病力最弱。【结论】3种镰孢菌作为该病害的病原,属国内首次报道。     

Fumonisins production by Fusarium proliferatum strains isolated from asparagus crown

The present work deals with the capability for producing fumonisin by Fusarium proliferatum strains isolated from asparagus in China. Fifty of F. proliferatum strains were randomly selected and incubated on cultures of maize grain and asparagus spear, respectively. Fumonisin levels (FB₁ and FB₂) were determined by high-performance liquid chromatography coupled to electrospray ionization tandem mass spectrometry (HPLC-ESI-MS/MS). The results showed that all 50 strains produced fumonisins in maize culture within a wide range of concentrations, 10–11,499 μg/g and 2–6,598 μg/g for FB₁ and FB₂, respectively. On culture of asparagus spear,48 strains (96%) produced fumonisins in the range 0.2–781.6 μg/g and no detected to 40.3 μg/g for FB₁ and FB₂, respectively. All of F. proliferatum strains produced much higher levels of FB₁, FB₂ and total fumonisins (FB₁ + FB₂) in maize grain culture than in asparagus spear culture. Meanwhile, fumonisin B₃ (FB₃) was identified in all maize culture extracts and most of asparagus spear culture extracts. This is the first study carried out the fumonisin-producing ability of F. proliferatum strains isolated from asparagus in China. The information obtained is useful for assessing the risk of fumonisins contamination in asparagus spear. Electronic supplementary material The online version of this article (doi: ) contains supplementary material, which is available to authorized users.     

Genetic Variability of Phytopathogenic Fusarium proliferatum Associated with Crown Rot in Asparagus officinalis

Fusarium proliferatum (teleomorph: Gibberella intermedia ) is a causal agent of crown rot of Asparagus officinalis and is one potential fumonisin-producing species within the genus Fusarium . It colonizes roots and crowns of asparagus plants, but could also be isolated from symptomless asparagus spears. Fusarium proliferatum isolates obtained from perennial asparagus plantings from Austria and Germany were included in a study on detectability and variability of two essential genes of the fumonisin-gene cluster. Genetic fingerprinting of 45 isolates revealed 14 different fingerprint groups, indicating genetic heterogenicity of F. proliferatum . Most isolates differentiated into three main fingerprint clusters, but no association was found between fingerprint group and origin of the isolates. By gene-specific PCR it was shown that, in 25 isolates tested, both initial genes of the fumonisin biosynthetic pathway – FUM1 , encoding a polyketide synthase and FUM8 , a gene for a putative aminoacyl transferase – were detectable. This suggests that these isolates were able to produce fumonisins and could contribute to the detected contamination in originating asparagus spears with this mycotoxin. Thus, early detection of FUM -genes in F. proliferatum -colonized asparagus may be suited to prevent uptake of fumonisin contaminated food with the human diet. Restriction fragment length polymorphism analysis (PCR-RFLP) of the amplified FUM gene fragments revealed little sequence variability, suggesting a conserved structure of these genes within this species. However, sequence analysis confirmed intraspecific nucleotide polymorphisms of these genes.     

Biological Control of Fusarium oxysporum f.sp. asparagi by Applying Non-pathogenic Isolates of F . oxysporum

Root rot severity of asparagus plants grown in sterilized field soil inoculated with Fusarium oxysporum f . sp . asparagi (Foa) was reduced by more than 50% when the soil was precolo nized by each of 13 non - pathogenic (np) isolates of F. oxysporum originating from asparagus roots or field soils . In a greenhouse experiment , application of six np isolates to naturally infested field soil was followed by a 23 - 49% decrease of disease severity , depending on the isolate . One of them , Fo47 originating from Fusarium suppressive soil in France , was applied to field plots infested with Foa . Foa root rot was not suppressed in asparagus plants grown for 1 year in these plots . Pathogenic and np isolates extensively colonized the root surface and isolates of both types infected the roots of asparagus plants grown in sterilized field soil , with significant differences among the np isolates . Inoculation of sterilized field soil with np isolates reduced germination of Foa chlamydospores by 43 - 64% depending on the isolate used . It is concluded that np isolates of F. oxysporum can suppress asparagus root rot caused by Foa in naturally infested field soil . The differences for root colonization capacity among the np isolates imply that selection for this trait might reveal isolates that perform better under field conditions .     

香蕉上的镰孢菌种类及其系统发育关系(英文)

镰孢菌属真菌是香蕉上的重要病原菌,主要引起香蕉枯萎病以及香蕉冠腐病,在我国已明确引起香蕉枯萎病的病原为尖孢镰孢古巴专化型 Fusarium oxysporum f. sp. cubense(FOC)1号和4号生理小种,但是引起香蕉冠腐病的镰孢菌种类还未明确。为了解香蕉上镰孢菌在种间及种内水平上的多样性,2008–2011 年间作者从华南地区不同的水果市场及香蕉果园采集香蕉样品90份,分离得到143株镰孢菌。通过形态学观察及基于 EF-1α基因的系统进化分析鉴定出10种镰孢菌,即F. oxysporum、F. solani、F. camptoceras、F. pallidoroseum、F. stiloides、F. chlamydosporum、F.verticillioides、F. proliferatum、F. concentricum、F. sacchari,以及藤仓赤霉复合种(Gibberella fujikuroi species complex,GFC)中 3 个未定名的类群。轮纹镰孢 F. concentricum 及甘蔗镰孢 F.sacchari 是香蕉果实中最常见种,前菌为我国首次报道,后菌是首次报道与香蕉有关。对从香蕉上分离的藤仓赤霉复合种(GFC)及尖孢镰孢复合种(FOSC)的EF-1α序列进行了系统发育分析,其GFC中的27个菌株组成的单系群可分为7个不同的亚群,分别为 F.verticillioides、F. proliferatum、F. concentricum、F. sacchari 以及3个没有描述过的菌系 Fusarium sp. 1、Fusarium sp.2和 Fusarium sp.3;FOSC中的50个菌株形成2大分枝共12个谱系,分离自我国华南地区的21株尖孢镰孢形成7个谱系,其中 13株已知的香蕉枯萎病病原菌分布在3个谱系中,我国大陆的香蕉枯萎病病原菌菌株与来源于台湾地区及东南亚的菌株亲缘关系较近,FOC1号生理小种的遗传分化大于4号生理小种,FOC 1号生理小种与分离自香蕉果实上的尖孢镰孢菌的亲缘关系比与FOC 4号生理小种的亲缘关系更近。研究结果表明,我国香蕉上存在着丰富的镰孢菌种类,而且种内遗传多样性丰富。     

河北省苹果园根际土壤中疑似致病镰孢菌种类

为了解引起河北省苹果再植病害的病原菌,在河北省10个地区苹果园中采集土壤样品,在实验室进行病原菌的诱集分离培养,根据形态和分子特征对主要病原菌进行种类鉴定。结果表明,在分离得到的293株真菌中,有116株镰孢菌,为分离频率最高的真菌。在形态学鉴定的基础上,对供试镰孢菌进行了分子鉴定。在基于核糖体基因内转录间隔区（rDNA-ITS）序列与翻译延长因子1α（EF-1α）序列片段构建的系统发育树中,代表菌株分别与GenBank登记的所属菌株聚于同一群。研究结果明确了河北省苹果再植病害的疑似致病镰孢菌,包括：尖孢镰孢Fusarium oxysporum、木贼镰孢F. equiseti、锐顶镰孢F. acuminatum、层出镰孢F. proliferatum和茄腐镰孢F. solani。     

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.     

Antifungal potentiality of some plant extracts against Fusarium sp.

Abstract

Aqueous extracts of 46 plants belonging to 32 different families of the plant kingdom were screened for antifungal activity against eight important species of Fusarium viz., Fusarium equiseti, F. moniliforme, F. semitectum, F. graminearum, F. oxysporum, F. proliferatum, F. solani and F. lateritium. The test fungi were isolated from maize, paddy and sorghum seeds collected from Mysore district, Mysore, India. Among the several plants screened only 12 plants have recorded significant antifungal activity. The antifungal activity of aqueous extracts varied among the test pathogens and was compared with that of the synthetic fungicides Blitox, Captan, Dithane M-45 and Thiram. F. proliferatum, which showed high susceptibility for the aqueous extracts, was tested using different solvent extracts viz., petroleum ether, benzene, chloroform, methanol and ethanol extracts of all the 12 plants. The results revealed that these plants could be exploited for ecofriendly management of the diseases caused by the test fungal pathogens and seed biodeterioration during storage.     

生防菌根系定殖竞争作用对西瓜枯萎病发病机理的影响

【目的】西瓜枯萎病是由西瓜专化型尖孢镰刀菌(Fusarium oxysporum f.sp.niveum)引起的一种常见的毁灭性土传病害,对镰刀菌同属非致病性菌株与致病性菌株存在的竞争作用进行研究,有助于获得新的具有生防效果的菌株,从而拓宽西瓜枯萎病生物防治的手段。【方法】利用选择性培养基和稀释平板计数法对温室盆栽试验中西瓜根际和非根际土壤及植物组织中非致病性轮枝镰刀菌菌株(Fusarium verticillioides XA)与致病性尖孢镰刀菌(Fusarium oxysporum LD)进行计数,确定其在西瓜植株根际和组织中的定殖情况。【结果】将从田间西瓜枯萎病发病植株根部分离获得的菌株XA和LD接入健康土壤中,接种菌株XA既不会引起西瓜枯萎病发病症状,也不会影响西瓜植株生物量,但接种菌株LD导致严重发病症状。与单接种LD处理相比较,双接种(XA+LD)处理地上部鲜重和地上部干重都分别增加了151.2%和110%。XA菌株能成功定殖于西瓜根系,但在茎基部没有检测到。在接种菌株LD的处理中植物组织和土壤中致病性镰刀菌的数量达到(1.58 4.85)×104CFU/g。与单接种LD处理相比,双接种菌株XA和LD处理植物茎基部、根系、根际土壤和土体土壤致病性镰刀菌的数量分别下降63.3%、66.1%、3.3%和24.4%,根系、根际土壤和土体土壤非致病性镰刀菌的数量增加到(0.35 3.84)×104CFU/g;双接种处理对西瓜枯萎病的防效达57.8%。【结论】非致病性轮枝镰刀菌菌株XA可有效降低致病性尖孢镰刀菌LD对西瓜植株的定殖侵染能力,对西瓜枯萎病具有一定的生防效果。     

Primer Sets Developed To Amplify Conserved Genes from Filamentous Ascomycetes Are Useful in Differentiating Fusarium Species Associated with Conifers

We examined the usefulness of primer sets designed to amplify introns within conserved genes in filamentous ascomycetes to differentiate 35 isolates representing six different species of Fusarium commonly found in association with conifer seedlings. We analyzed restriction fragment length polymorphisms (RFLP) in five amplified PCR products from each Fusarium isolate. The primers used in this study were constructed on the basis of sequence information from the H3, H4, and (beta)-tubulin genes in Neurospora crassa. Primers previously developed for the intergenic transcribed spacer region of the ribosomal DNA were also used. The degree of interspecific polymorphism observed in the PCR products from the six Fusarium species allowed differentiation by a limited number of amplifications and restriction endonuclease digestions. The level of intraspecific RFLP variation in the five PCR products was low in both Fusarium proliferatum and F. avenaceum but was high in a population sample of F. oxysporum isolates. Clustering of the 35 isolates by statistical analyses gave similar dendrograms for H3, H4, and (beta)-tubulin RFLP analysis, but a dendrogram produced by intergenic transcribed spacer analysis varied in the placement of some F. oxysporum isolates.     

Molecular detection of Fusarium oxysporum f. sp. niveum and Mycosphaerella melonis in infected plant tissues and soil

We developed two species-specific PCR assays for rapid and accurate detection of the pathogenic fungi Fusarium oxysporum f. sp. niveum and Mycosphaerella melonis in diseased plant tissues and soil. Based on differences in internal transcribed spacer (ITS) sequences of Fusarium spp. and Mycosphaerella spp., two pairs of species-specific primers, Fn-1/Fn-2 and Mn-1/Mn-2, were synthesized. After screening 24 isolates of F. oxysporum f. sp. niveum, 22 isolates of M. melonis, and 72 isolates from the Ascomycota, Basidiomycota, Deuteromycota, and Oomycota, the Fn-1/Fn-2 primers amplified only a single PCR band of approximately 320 bp from F. oxysporum f. sp.niveum, and the Mn-1/Mn-2 primers yielded a PCR product of approximately 420 bp from M. melonis. The detection sensitivity with primers Fn-1/Fn-2 and Mn-1/Mn-2 was 1fg of genomic DNA. Using ITS1/ITS4 as the first-round primers, combined with either Fn-1/Fn-2 and or Mn-1/Mn-2, two nested PCR procedures were developed, and the detection sensitivity increased 1000-fold to 1ag. The detection sensitivity for the soil pathogens was 100-microconidia/g soil. A duplex PCR method, combining primers Fn-1/Fn-2 and Mn-1/Mn-2, was used to detect F. oxysporum f. sp. niveum and M. melonis in plant tissues infected by the pathogens. Real-time fluorescent quantitative PCR assays were developed to detect and monitor the pathogens directly in soil samples. The PCR-based methods developed here could simplify both plant disease diagnosis and pathogen monitoring as well as guide plant disease management.     

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.     

我国部分地区蔬菜镰孢菌的分离及鉴定

对采自我国6省18市（县）的蔬菜根茎样本进行了组织分离和形态学鉴定,共鉴定出镰孢菌10个种.其中尖镰孢（Fusarium oxysporum）为优势茵,占镰孢菌总量的73.42％,其他种类的镰孢菌为锐顶镰孢(F.acuminatum)、弯角镰孢（F.camptoceras）、蓝色镰孢（F.coeruleunm）、木贼镰...     

Species-specific primers for Fusarium redolens and a PCR-RFLP technique to distinguish among three clades of Fusarium oxysporum

The currently available morphological and molecular diagnostic techniques for Fusarium redolens and the three phylogenetic clades of Fusarium oxysporum are problematic. Aligned translation elongation factor 1 alpha (TEF-1 alpha) gene sequences from these species and their close relatives were used to design F. redolens-specific primers, and to identify restriction sites that discriminate among the three clades of F. oxysporum. The F. redolens-specific primers distinguished this species from all others included in the study. There were three TEF-1 alpha-RFLP patterns among formae speciales of F. oxysporum. These PCR-RFLP patterns corresponded with the three clades. These techniques provide simple and inexpensive diagnostic methods for the identification of F. redolens and members of the three clades of F. oxysporum.     

尖孢镰刀菌致病机理和化感作用研究进展

尖孢镰刀菌引起的枯萎病在生产中的防控相当困难。通过总结国内外相关文献,综述近年来有关尖孢镰刀菌致病机理和化感作用的研究进展。尖孢镰刀菌通过分泌毒素和细胞壁降解酶共同致病,谱系特异性区域的存在是其致病性强和宿主范围广的主要原因;在尖孢镰刀菌各专化型中已分离出大量致病相关基因;其他植物和拮抗微生物(木霉菌、丛枝菌根真菌、非致病性尖孢镰刀菌以及植物生长促生菌)可以分泌化感物质,作用于宿主植物和尖孢镰刀菌,直接抑制尖孢镰刀菌的生长或激活宿主植物的防御反应。未来有关尖孢镰刀菌致病机理研究应该在基因组测序基础上构建精细的遗传图谱;对化感作用的研究应当深入探讨分子机理,利用高通量测序等技术在转录组或蛋白组水平上明确宿主植物抗枯萎病相关基因,同时利用分子标记辅助育种来筛选新的抗枯萎病品种。     

临床常见镰刀菌的鉴别

目的从分子生物学角度寻找一种快速准确鉴定临床常见镰刀菌的方法。方法将受试镰刀菌接种于PDA培养基,观察其菌落及镜下形态,在此基础上PCR扩增受试镰刀菌的rDNA ITS并测其序列,在GenBank核酸序列数据库进行同源序列搜索及分析。选择限制性内切酶Dra Ⅱ和Cfr13 Ⅰ进行RFLP。设计了茄病镰刀菌的种特异性引物Sol1、Sol2,初步验证其特异性。结果形态学鉴定结果显示,茄病镰刀菌所占比例最高,除2株串珠镰刀菌外,其余镰刀菌ITS序列分析的结果与形态学鉴定结果一致。茄病、层生和串珠镰刀菌的Dra Ⅱ、Cfr13 I酶切带形互不相同。用Sol1、Sol2扩增受试菌的rDNA ITS,只有茄病镰刀菌为阳性。结论rDNA ITS序列测定及其PCR-RFLP可用于初步鉴别几种临床常见镰刀菌,合适的种特异性引物可以初步快速鉴定茄病镰刀菌。     

Effect of dsRNA-containing and dsRNA-free hypovirulent isolates of Fusarium oxysporum on severity of Fusarium seedling disease of soybean in naturally infested soil

In the sandy soils of eastern Virginia, soybean seedlings are colonized by hypovirulent and virulent isolates of Fusarium oxysporum and F. solani. Our objectives were to determine if prior inoculation of soybean seeds with hypovirulent F. oxysporum isolates reduced severity of seedling disease in naturally infested soil, and to determine if there was an association between the presence of dsRNA mycovirus and hypovirulence in isolates of F. oxysporum and F. solani from soybean plants. The presence of dsRNA was not associated with hypovirulence in F. oxysporum since some hypovirulent isolates contained dsRNA while other hypovirulent isolates did not. Furthermore, of six dsRNA-containing F. oxysporum isolates, three were hypovirulent and three were virulent. Four segments of dsRNA, with sizes of 4.0, 3.1, 2.7 and 2.2 kb were detected in extracts of all six F. oxysporum isolates. No hypovirulent or dsRNA-containing of F. solani isolates were found. Prior inoculation of cv. Essex soybean seeds with conidia of dsRNA-free hypovirulent F. oxysporum isolates significantly (P < 0.05) reduced disease severity on cotyledons and hypocotyls, and increased the rate of seedling emergence in field soil, compared to control plants. No significant (P > 0.05) differences were found between dsRNA-containing and dsRNA-free hypovirulent F. oxysporum isolates in their effects on reducing disease severity. Hypovirulent isolates that colonize soybean tissues may play a role in reducing Fusarium seedling disease of soybean in natural soils.