Synteny in Toxigenic Fusarium Species: The Fumonisin Gene Cluster and the Mating Type Region as Examples

A comparative genomic approach was used to study the mating type locus and the gene cluster involved in toxin production (fumonisin) in Fusarium proliferatum, a pathogen with a wide host range and a complex toxin profile. A BAC library, generated from F. proliferatum isolate ITEM 2287, was used to identify chromosomal regions flanking the mating type locus and the gene cluster involved in the biosynthesis of fumonisin. These regions were sequenced and compared with corresponding sequences in other ascomycetes. The results demonstrated that the level of synteny between ascomycetes can vary greatly for different genomic regions and that the level of similarity of genes within a region can also fluctuate strongly. Synteny was found in the regions flanking the mating type idiomorph among ascomycetes that supposedly diverged 280 million years ago. The fumonisin gene clusters of F. proliferatum and F. verticillioides were completely syntenic but absent in F. graminearum. The regions flanking the fumonisin gene clusters were highly dissimilar between F. proliferatum and F. verticillioides, whereas they formed a continuous region in F. graminearum. This indicates that the fumonisin gene cluster has been inserted at different genome locations in both species. Surprisingly low similarity was found between the corresponding genes within the fumonisin cluster of F. proliferatum and F. verticillioides, compared to other genomic sequences indicative for two independent acquisition events from distinct genetic sources. The results demonstrate the power of comparative genomics for gene annotation and for studies on the evolution of genes, gene-clusters and species.     

Genetic Markers for the Analysis of Variability and for Production of Specific Diagnostic Sequences in Fumonisin-Producing Strains of Fusarium Verticillioides

Fusarium verticillioides(Gibberella moniliformis, Gibberella fujikuroi mating population A) is the main source of fumonisins, a group of toxins which contaminates commodities, causing chronic and acute diseases in humans and animals. Fumonisins are produced during colonisation and infection of host plants even when disease symptoms are not recognisable. Early detection and control of F. verticillioides is crucial to prevent fumonisins from entering the food chain. DNA-based strategies have been used to search for markers to develop sensitive, robust and specific diagnostic assays, mainly based on PCR. The different approaches used, based either on DNA markers unrelated to fumonisin production or on information about the genes involved in fumonisin production, are described and discussed. The ability of these methods to discriminate between the two populations occurring within F. verticillioides, fumonisin-producing and fumonisin non-producing strains, is also addressed.     

Differentiation of Fusarium verticillioides from Banana Fruits by IGS and EF-1α Sequence Analyses

Fusarium verticillioides(Gibberella moniliformis, G. fujikuroi mating population A) is an important pathogen of maize and produces several mycotoxins, including fumonisins, which cause diseases in humans and animals. The partial sequences of the IGS region (Intergenic Spacer of rDNA units) and the translation elongation factor EF-1α gene of a representative sample (48 strains) of F. verticillioides isolated from diverse hosts, geographical origins and with different levels of fumonisin production were analyzed. A phylogenetic approach by PAUP was used to evaluate the genetic variability in this species and to detect the occurrence of lineages which could be associated with different hosts or produced different toxin profiles within this species. Genetic variability detected by both sequences was high, especially with the IGS sequence which showed a high number of parsimony-informative sites and nucleotide diversity. The results of the phylogenetic analysis indicated that F. verticillioides occurs as (i) a major fumonisin-producing population with a wide geographical distribution, wide host preferences (cereals), showing variability and considerable incidence of sexual reproduction and (ii) a minor fumonisin non-producing population, with restricted host preference (banana), low variability and clonal reproductive strategy.     

Toxin Profile, Fertility and AFLP Analysis of Fusarium verticillioides from Banana Fruits

Gibberella fujikuroi is composed of at least nine mating populations (MPs), corresponding to biological species and assigned letters (from A to I). Each MP possesses a specific toxicological profile and a preferential host. Members of Fusarium verticillioides and F. thapsinum, anamorphs respectively of MPs A (G. moniliformis) and F (G. thapsina), share identical morphological traits, but they have a different preferential hosts (maize and sorghum, respectively) and toxin profiles, beingable the only member of MP A to produce fumonisins and the only member of MP F to produce moniliformin. Isolates from banana fruits were identified morphologically as F. verticillioides. The isolates were analyzed for fumonisin and moniliformin production. While none of the isolates produced fumonisin, all the isolates produced moniliformin. The isolates were crossed with tester strains of MPs A and F, showing ability to produce fertile perithecia only when crossed by MP A tester strains isolated from maize. However, the time required for the formation of fertile perithecia and their size differed significantly from the usual fertile crosses of strains belonging to MP A. Pathogenicity tests using such isolates of F. verticillioides isolated from banana and a set of F. verticillioides isolates isolated from maize were also performed on banana fruits. The data showed that the isolates from banana were more pathogenic. Finally, isolates from banana and maize were compared using AFLP. The results revealed that isolates from banana and maize produced two distinctly different clusters. In conclusion, isolates of F. verticillioides from banana showed specific traits (toxin production, in vitro fertility, pathogenicity and molecular profiles), that were different to those of the same species from maize. This could reflect important differences in the ecology and natural history of the population from banana and should encourage further investigations into the mechanisms of toxin production and pathogenicity within the same MP.     

Aggressiveness and mycotoxin production of eight isolates each of <Emphasis Type="Italic">Fusarium graminearum</Emphasis> and <Emphasis Type="Italic">Fusarium verticillioides</Emphasis> for ear rot on susceptible and resistant early maize inbred lines

Fusarium graminearum and F. verticillioides are among the most important pathogens causing ear rot of maize in Central Europe. Our objectives were to (1) compare eight isolates of each species on two susceptible inbred lines for their variation in ear rot rating and mycotoxin production across 3 years, and (2) analyse two susceptible and three resistant inbred lines for potential isolate x line interactions across 2 years by silk-channel inoculation. Ear rot rating, zearalenone (ZEA) and deoxynivalenol (DON) concentrations were evaluated for all F. graminearum isolates. In addition, nivalenol (NIV) concentrations were analysed for two NIV producers. Fumonisin (FUM) concentrations were measured for all F. verticillioides isolates. Mean ear rot severity was highest for DON producers of F. graminearum (62.9% of the ear covered by mycelium), followed by NIV producers of the same species (24.2%) and lowest for F. verticillioides isolates (9.8%). For the latter species, ear rot severities differed highly among years (2006: 24%, 2007: 3%, 2008: 7%). Mycotoxin concentrations among isolates showed a broad range (DON: 100–284 mg kg⁻¹, NIV: 15–38 mg kg⁻¹, ZEA: 1.1–49.5 mg kg⁻¹, FUM: 14.5–57.5 mg kg⁻¹). Genotypic variances were significant for isolates and inbred lines in all traits and for both species. Isolate x line interactions were significant only for ear rot rating (P < 0.01) and DON concentration (P < 0.05) of the F. graminearum isolates, but no rank reversals occurred. Most isolates were capable of differentiating the susceptible from the resistant lines for ear rot severity. For resistance screening, a sufficiently aggressive isolate should be used to warrant maximal differentiation among inbred lines. With respect to F. verticillioides infections, high FUM concentrations were found in grains from ears with minimal disease symptoms.     

糖苷水解酶基因FvGH16-2参与拟轮枝镰孢菌生长发育及致病性

为明确糖苷水解酶16（glycoside hydrolase,GH16）家族基因在拟轮枝镰孢菌Fusarium verticillioides生长发育和致病过程中的作用,利用生物信息学分析软件对其GH16家族成员进行鉴定,采用转录组分析及实时荧光定量PCR技术对GH16家族成员在不同培养温度下的表达水平进行检测,并通过遗传转化法对家族成员FvGH16-2基因进行敲除及回补,分析其在拟轮枝镰孢菌生长发育及致病过程中的作用。结果显示,在拟轮枝镰孢菌基因组中共鉴定到23个GH16家族基因,其中FvCH16-2、FvCH16-4和FvCH16-12等多个上调表达基因与病菌的生长和抗逆性相关。敲除FvGH16-2基因导致拟轮枝镰孢菌的生长速率及产孢能力降低,细胞壁完整性受损,对H2O2更加敏感,同时对玉米籽粒和茎秆的致病力减弱。表明FvGH16-2基因在拟轮枝镰孢菌生长发育和致病过程中发挥着重要作用,是拟轮枝镰孢菌细胞壁完整性和致病性所必需的。     

Relationships of immature and adult thrips with silk‐cut,fusarium ear rot and fumonisin B1 contamination of maize in California and Hawaii

Field experiments were conducted in California and Hawaii in order to investigate the relationships between thrips feeding in maize ears and fusarium ear rot and silk‐cut symptoms. Half the plots in each experiment were treated with insecticides following pollination. Thrips populations within ears were enumerated at six stages of ear development. Grain was examined microscopically and the percentages of kernels with silk‐cut and ear rot symptoms were quantified by weight. Fumonisin B₁ contamination in grain was measured by ELISA. Immature stages of thrips predominated, and maximum thrips populations occurred 21 days after pollination. Insecticides reduced thrips numbers, as well as silk‐cut, ear rot symptoms and fumonisin B₁ contamination. Immature thrips populations were more strongly correlated with silk‐cut/ear rot symptoms (R = 0·75) and fumonisin B₁ accumulation (R = 0·53), than were adult thrips (R = 0·48 and 0·36, respectively). Silk‐cut kernels all had ear rot symptoms and the percentage of kernels with symptoms was highly correlated with fumonisin B₁ contamination (R = 0·84). Results suggest that thrips are not occasional feeders, but can complete a substantial portion of their life cycle on maize ears. The results also indicate that thrips activity may be a cause of silk‐cut symptoms, and this may be the mechanism that connects thrips activity with fusarium ear rot and fumonisin contamination of grain.     

Genetic structure of <Emphasis Type="Italic">Fusarium verticillioides</Emphasis> populations isolated from maize in Argentina

Fusarium verticillioides (sexual stage Gibberella moniliformis) is a common fungal pathogen of maize worldwide that also produces fumonisin mycotoxins. Populations of this fungus can be diverse with respect to neutral and selectable genetic markers. We used vegetative compatibility groups (VCGs) and amplified fragment length polymorphisms (AFLPs) to evaluate the genetic structure of three F. verticillioides populations from commercial maize fields in Argentina. Based on work with similar populations from outside South America, we expected individuals within the populations to be genetically diverse, that genotypic variation would be distributed in a manner consistent with random mating, and that populations from different locations would be genetically indistinguishable from one another. We analysed 62 AFLP loci for 133 fungal isolates. All three populations were genotypically diverse but genetically similar and potentially part of a larger, randomly mating population, with significant genetic exchange occurring between the three subpopulations. There was no evidence for linkage disequilibrium at P = 0.05. The low values of G _ST , the lack of frequent private alleles, and the lack of a systemic pattern of linkage disequilibrium all suggest that sexual reproduction is sufficiently common in F. verticillioides and that the dispersal of strains is sufficiently efficient for the population of F. verticillioides in the main maize growing region to be a single randomly mating population with no detectable genetic subdivision. Thus differences in disease and/or toxin production observed in this region are best attributed to differences other than the genetic composition of the population.     

Genetic Analysis of the Role of Trichothecene and Fumonisin Mycotoxins in the Virulence of Fusarium

The phytotoxicity of the Fusarium trichothecene and fumonisin mycotoxins has led to speculation that both toxins are involved in plant pathogenesis. This subject has been addressed by examining virulence of trichothecene and fumonisin-nonproducing mutants of Fusarium in field tests. Mutants were generated by transformation-mediated disruption of genes encoding enzymes that catalyze early steps in the biosynthesis of each toxin. Two economically important species of Fusarium were selected for these studies: the trichothecene-producing species Fusarium graminearum, which causes wheat head blight and maize ear rot, and the fumonisin-producing species F. verticillioides, which causes maize ear rot. Trichothecene-non-producing mutants of F. graminearum caused less disease than the wild-type strain from which they were derived on both wheat and maize, although differences in virulence on maize were not observed under hot and dry environmental conditions. Genetic analyses of the mutants demonstrated that the reduced virulence on wheat was caused by the loss of trichothecene production rather than by a non-target mutation induced by the gene disruption procedure. Although the analyses of virulence of fumonisin-non-producing mutants of F. verticillioides are not complete, to date, the mutants have been as virulent on maize ears as their wild-type progenitor strains. The finding that trichothecene production contributes to the virulence of F. graminearum suggests that it may be possible to generate plants that are resistant to this fungus by increasing their resistance to trichothecenes. As a result, several researchers are trying to identify trichothecene resistance genes and transfer them to crop species.     

Morphological and molecular identification and PCR amplification to determine the toxigenic potential of Fusarium spp. isolated from maize ears in southern Poland

The average amount of precipitation in spring and summer 2010 and 2011 coupled with relatively high temperatures caused massive Fusarium spp. infection of maize and yield losses in southern Poland. In order to examine the cause of this disease outbreak, Fusarium spp. were isolated and fungal strains were identified based on morphological characters and species-specific PCR assays. A total of 200 maize samples were processed, resulting in the obtention of 71 strains, which belonged to five Fusarium species, F. poae being the predominant one (74.56%). Other isolates were identified as F. graminearum, F. oxysporum, F. verticillioides and F. proliferatum. PCR-based detection of mycotoxin-synthesis-pathway genes was also used to determine the potential of the analyzed strains to produce trichothecenes (DON and NIV) and fumonisins (FUM). Only 14 isolates revealed the potential to produce DON (11 strains) and FUM (3 strains). HPLC analyses of grain samples revealed the presence of DON only – other mycotoxins were not detected. Moreover, 57.1% of potentially mycotoxin-producing isolates indicated the toxicity in a biological test.     

Natural occurrence of <Emphasis Type="Italic">Fusarium</Emphasis> species and fumonisin on maize grains in Ethiopia

Fusarium species causing maize kernel rot are major threats to maize production, due to reduction in yield as well as contamination of kernels by mycotoxins that poses a health risk to humans and animals. Two-hundred maize kernel samples, collected from 20 major maize growing areas in Ethiopia were analyzed for the identity, species composition and prevalence of Fusarium species and fumonisin contamination. On average, 38 % (range: 16 to 68 %) of maize kernels were found to be contaminated by different fungal species. Total of eleven Fusarium spp. were identified based on morphological characteristics and by sequencing the partial region of translation elongation factor 1-alpha (EF-1α) gene. Fusarium verticillioides was the dominant species associated with maize kernels (42 %), followed by F. graminearum species complex (22.5 %) and F. pseudoanthophilium (13.4 %). The species composition and prevalence of Fusarium species differed among the areas investigated. Fusarium species composition was as many as eight and as few as four in some growing area. The majority of the maize samples (77 %) were found positive for fumonisin, with concentrations ranging from 25 μg kg^?1 to 4500 μg kg^?1 (mean: 348 μg kg^?1 and median: 258 μg kg^?1). Slight variation in fumonisin concentration was also observed among areas. Overall results indicate widespread occurrence of several Fusarium species and contamination by fumonisin mycotoxins. These findings are useful for intervention measures to reduce the impact of the main fungal species and their associated mycotoxins, by creating awareness and implementation of good agricultural practices.     

Laboratory studies on the influence of the earthworm Eukerria saltensis (Beddard) (Oligochaeta: Ocnerodrilidae) on overlying water quality and rice plant establishment

Dense infestations of a peregrine oligochaete worm, Eukerria saltensis (Beddard), have been linked to rice crop failures in southern New South Wales, Australia. The influence of E. saltensis on water quality and rice plant establishment was investigated in a series of laboratory experiments using a flooded Riverina clay soil. Worm densities of 20 and 40 per container (2548 and 5096 worms/m², respectively) significantly increased water turbidity after 7 days incubation. Longer incubation periods led to turbidity levels of over 500 NTU being achieved (40 worms per container, 21 days incubation). Water pH was significantly reduced by densities of 10, 20, and 40 worms per container after 7 days under cyclical illumination, however in continuous darkness significant changes in pH related to worm density were only found after 21 days incubation. Nitrogen as NH₄+ and total phosphorus increased significantly in the overlying water in response to increasing worm densities after 21 days incubation, however nitrogen as nitrate/nitrite and soluble phosphorus did not. Algal production (measured as extracted chlorophyll a concentration) was unaffected by the worms, reflecting the low concentrations of available phosphorus in all treatments. Rice plants grown in containers with worms produced significantly longer and heavier shoots than control plants. Root systems were unaffected, and there was no evidence of root abrasion. Evaluation of rice seed stratification in the soil profile indicates that rice seeds can be passively transported below the soil surface by the feeding and tunnelling activity of E. saltensis. Our results suggest that E. saltensis impedes the establishment of aerially-sown rice crops primarily by increasing water turbidity. Plants respond to high turbidity by partitioning more of their growth into shoot production, and consequently become vulnerable touprooting through wave action, particularly as the soil loses compaction because of worm activity. Maintaining the lowest possible water levels during rice crop establishment has helped farmers to minimize these effects.     

Sources of resistance to fumonisin accumulation in grain and fusarium ear and kernel rot of corn

ABSTRACT Fumonisin is a group of homologous mycotoxins produced by several species of Fusarium. Fumonisin has been associated with Fusarium ear and kernel rot of corn (Zea mays) and several toxicoses of animals and humans. Corn inbreds with a high level of resistance to fumonisin production and accumulation in grain have not been identified. The objective of this study was to evaluate a genetically diverse collection of inbreds as potential sources of resistance to fumonisin production and accumulation in grain and Fusarium ear and kernel rot when crossed with a commercial "B73-type" line. F(1) hybrids developed with the inbred FR1064 and 1,589 and 1,030 inbreds were evaluated in inoculated and naturally infected trials, respectively, in 2000. Thirty-five F(1) hybrids with fumonisin concentration in grain of 相似文献   

The influence of flavonoids in maize pericarp on fusarium ear rot symptoms and fumonisin accumulation under field conditions

Breeding efforts have been undertaken to increase resistance of maize to fusarium ear rot (FER) and to fumonisin accumulation. Flavonoids in the pericarp of the kernels are considered particularly able to reduce the fumonisin accumulation. The aim of this 2‐year field study was to assess the effect of flavonoids on FER symptoms and fumonisin contamination in maize kernels using two isogenic hybrids, one providing pigmentation in the pericarp (P1‐rr) and the other without it (P1‐wr). FER incidence (FERi), FER severity (FERs), the incidence of infections caused by Fusarium spp. in symptomless kernels (FF) and fumonisin contamination (FUM) were assessed in both hybrids. Significant differences between the two hybrids were detected mainly in 2012 trials where P1‐rr showed lower FERi (P < 0·01), FF (P < 0·05) and FUM (P < 0·1) than P1‐wr. Site, characterized by local temperature and precipitation, played a relevant role in modelling all the measured variables, as its effect was highly significant in both years, whether they were considered individually or altogether. The interaction of hybrid with location was a significant (P < 0·001) source of variation only for FF. FF, together with FERi, was also significantly (P < 0·001) influenced by the interaction of hybrid with year. In general, FUM was more influenced by year and location parameters, such as temperatures during late ripening, than by flavonoid presence in kernel pericarp. The results indicate that flavonoid pigments alone may not be an important component in the resistance of maize to fumonisin accumulation.     

Ear Rot Susceptibility and Mycotoxin Contamination of Maize Hybrids Inoculated with Fusarium Species Under Field Conditions

The development of new maize hybrids with resistance to Fusarium infection is an effective means of minimizing the risk of mycotoxin contamination. Several maize hybrids have been investigated for Fusarium ear rot and accumulation of fumonisin B₁ (FB₁), fumonisin B₂ (FB₂), beauvericin (BEA) and fusaproliferin (FP) after artificial inoculation in the field with toxigenic strains of Fusarium verticillioides and Fusarium proliferatum. The year of inoculation had a significant influence on the disease severity and mycotoxin accumulation in maize kernels. Of all the hybrids tested, only Mona exhibited resistance to ear rot caused by F. verticillioides and produced low levels of fumonisins during three years of experiments. In Fusarium-damaged kernels (FDK), fumonisin B₁, fumonisin B₂, beauvericin and fusaproliferin were detected at concentrations much higher (up to 10–20 times) than in healthy-looking kernels (HLK). Animal and human exposure to these mycotoxins can be drastically reduced by removing mouldy and visibly damaged kernels from the commodity.     

Molecular and genetic characterization of ethylene involvement in mycotoxin-induced plant cell death

AAL-toxin and the structurally related mycotoxin, fumonisin B₁(FB₁), cause interveinal cell death in susceptible lines of tomato with morphological characteristics of apoptosis. We observed previously that concomitant with cell death, an increase in 1-aminocyclopropane-1-carboxylic acid (ACC) and ethylene occurs, while the addition of inhibitors of ethylene biosynthesis or action significantly reduce the amount of dead tissue. Using a molecular approach, we have identified the primary ACC synthase gene family member involved, LE ACS2, and have observed an interesting aspect of its regulation. Fumonisin B₁caused the accumulation of LE ACS2 mRNA with a similar time course but to a lower level than did AAL-toxin. Nevertheless, ACC levels were similar for AAL- and FB₁-treated tissue. ACC oxidase mRNA was also induced by both mycotoxins, and again AAL-toxin induction was greater than that with FB₁. The induction of ACC synthase and ACC oxidase mRNA observed here represents the earliest changes in gene expression noted in this cell death system to date. The effects of theNever ripemutation of tomato, which affects ethylene perception, on toxin-induced cell death also were determined. TheNever ripemutant showed significantly less necrosis or chlorosis in response to the mycotoxins than did its wild type counterpart. These results indicate that alteration in ethylene perception can markedly reduce the amount of tissue damage during this susceptible response. These findings extend our understanding of ethylene-associated signal transduction during plant cell death and suggest strategies for manipulation of cell death to enhance plant disease resistance.     

Guava decline: effect of root exudates from Meloidogyne enterolobii-parasitized plants on Fusarium solani in vitro and on growth and development of guava seedlings under controlled conditions

In guava decline, Fusarium solani-immune guava trees become susceptible to extensive root rot caused by this fungus after parasitism by Meloidogyne enterolobii. To understand the mechanisms involved in this disease, root exudates were collected from nematode-inoculated (NI) or uninoculated (UN) guava plants cultivated in sand. After filtration through a Millipore® membrane, NI and UN exudates were used: i) to prepare media to assess their effect on mycelial growth and production of propagules of F. solani isolate UENF/CF 163, and ii) to incubate macro- and microconidia to assess their effect on germination. NI exudates promoted (P?<?0.05) more mycelial growth and production of propagules than UN exudates or water. NI and UN exudates were used to water guava seedlings laid over seed germination paper inside plastic boxes. Half of the seedlings had an agar plug colonized by the fungus positioned in the collar region. Upon watering with NI exudates the fungus caused (P?<?0.05) extensive rotting of the seedlings’ rootlets. NI and UN exudates, either unlyophilized or lyophilized and re-suspended to the original concentration, were used to water guava seedlings grown in sterile sand before being inoculated (or left uninoculated) as described before. Solely upon watering with NI exudates, in its unlyophilized form or after lyophilization, the fungus caused a reduction (P?<?0.05) of shoot and root biomass associated with rotting of roots. These results suggest that M. enterolobii induces chemical changes in the root exudates of guava trees, which are necessary for root invasion causing root rotting by F. solani.     

河北省玉米穗腐病病原菌鉴定及潜在产伏马毒素镰孢菌系统发育分析

 为明确河北省夏玉米区玉米穗腐病的发生情况、病原菌组成及地区对病原菌种类的影响,本团队于2016年和2017年在玉米收获前期对玉米穗腐病的发生情况进行调查,并通过生物学方法对随机采回的样本进行分离鉴定。田间调查结果表明,与2016年相比,2017年河北省玉米种植面积有所减少,玉米穗腐病的发病率有所下降。分离鉴定结果表明,引起河北省夏玉米区穗腐病的优势病原菌为拟轮枝镰孢菌(Fusarium verticillioides),分离频率为63.49%,其他病原菌如层出镰孢菌(F. proliferatum)、禾谷镰孢菌(F. graminearum)、变红镰孢菌(F. incarnatum)、黑曲霉(Aspergillus niger)、黄曲霉(A. flavus)、草酸青霉(Penicillium oxalicum)和哈茨木霉(Trichoderma harzianum)的分离频率分别为19.05%、6.35%、1.59%、14.29%、3.17%、9.52%和1.59%。为明确伏马毒素基因在潜在产伏马毒素镰孢菌鉴定中的作用,拟轮枝镰孢菌、层出镰孢菌和藤仓镰孢菌(F. fujikuroi)分别以EF-1α和FUM1基因序列为基础构建系统发育树。结果表明,两个系统发育树拓扑结构相似,伏马毒素基因可用于潜在产伏马毒素镰孢菌种的鉴定,基于FUM1基因的种间遗传距离大于基于EF-1α基因的种间遗传距离,而种内遗传距离的结论则与之相反。