Fsr1, a striatin homologue,forms an endomembrane‐associated complex that regulates virulence in the maize pathogen Fusarium verticillioides

Fsr1, a homologue of mammalian striatin, containing multiple protein‐binding domains and a coiled‐coil (CC) domain, is critical for Fusarium verticillioides virulence. In mammals, striatin interacts with multiple proteins to form a STRIPAK (striatin‐interacting phosphatase and kinase) complex that regulates a variety of developmental processes and cellular mechanisms. In this study, we identified the homologue of a key mammalian STRIPAK component STRIP1/2 (striatin‐interacting proteins 1 and 2) in F. verticillioides, FvStp1, which interacts with Fsr1 in vivo. Gene deletion analysis indicates that FvStp1 is critical for F. verticillioides stalk rot virulence. In addition, we identified three proteins, designated FvCyp1, FvScp1 and FvSel1, which interact with the Fsr1 CC domain via a yeast two‐hybrid screen. Importantly, FvCyp1, FvScp1 and FvSel1 co‐localize to endomembrane structures, each having a preferred localization in the cell, and they are all required for F. verticillioides stalk rot virulence. Moreover, these proteins are necessary for the correct localization of Fsr1 to the endoplasmic reticulum (ER) and nuclear envelope. Thus, we identified several novel components in the STRIPAK complex that regulates F. verticillioides virulence, and propose that the correct organization and localization of Fsr1 are critical for STRIPAK complex function.     

Variation in pathogenicity of Fusarium verticillioides and resistance of maize genotypes to Fusarium ear rot

Abstract

The ineffective control measures of pathogens is due to variability among their populations. Hence, the study of pathogenic variation of Fusarium verticillioides strains on maize genotypes. Six F. verticillioides infected maize ear were randomly obtained from three agro-ecological zones in Southwest Nigeria. Pathogenicity of F. verticillioides strains at 1.0?×?10⁶ spores/mL were examined in vivo based on the rating scale of 1–7 on maize genotypes T2L COMP.1.STR SYN-W-1, PVA SYN 8F2, and T2L COMP.4. The pathogens were inoculated to the maize genotypes on 8th week for disease severity and were all moderately susceptible, however, genotype T2L COMP.4 was the most susceptible. It was observed that, 9.4% were classified as highly virulent, 12.5% as virulent, 37.5% as moderately virulent, 21.8% as slightly virulent, and 18.8% as non-virulent. In all, Fusarium verticillioides strains displayed different degrees of virulence, however, maize genotype T2L COMP.4 was the most susceptible to ear rot.     

Seed biopriming with novel strain of Trichoderma harzianum for the control of toxigenic Fusarium verticillioides and fumonisins in maize

Fusarium verticillioides is one of the most important fungal pathogens in maize causing both pre- and post-harvest losses and also capable of producing Fumonisins. In the present study attempts have been made for screening potential T. harzianum from native rhizosphere and to study its effect on Fusarium ear rot disease, fumonisin accumulation in different maize cultivars grown in India. Eight isolates of T. harzianum were isolated and T. harzianum isolate Th-8 exhibited better antifungal activity than carbendizim. Th-8 was formulated in different solid substrates like wheat bran, paddy husk, talcum powder and cornstarch. Maize seeds of kanchan (moderately resistant), pioneer (resistant) and sweet corn (susceptible) were selected for laboratory and field studies and these seeds were treated with a conidial suspension of T. harzianum at the rate of 1 × 10⁸ spore/ml and formulation at the rate of 10 g/kg. Treated seeds were subjected to evaluate F. verticillioides incidence, seed germination, seedling vigour and field emergence, yield, thousand seed weight and fumonisin production. It was found that the pure culture of T. harzianum was more effective in reducing the F. verticillioides and fumonisin incidence followed by Talc formulation than the carbendizim treated and untreated control. Formulations of T. harzianum were effective at reducing the F. verticillioides and Fumonisin infection and also increasing the seed germination, vigour index, field emergence, yield, and thousand seed weight in comparison with the control.     

玉米种质和新品种对腐霉茎腐病和镰孢穗腐病的抗性分析

玉米是我国最重要的农作物之一,腐霉茎腐病和镰孢穗腐病是玉米生产上的重要病害。2006-2012年期间,对1647份玉米种质进行了抗肿囊腐霉茎腐病和拟轮枝镰孢穗腐病鉴定,筛选出高抗茎腐病和穗腐病的种质分别为564份和27份,占鉴定总材料的34.2%和1.6%,抗性材料分别为209份和352份,占比为12.7%和21.4%,表明高抗肿囊腐霉茎腐病的资源较为丰富,高抗镰孢穗腐病的种质相对匮乏。其中,13份种质对2种病害均表现高抗,207份种质对2种病害均表现抗性或对其中一种表现高抗而另一种表现抗性。自交系中对肿囊腐霉茎腐病和拟轮枝镰孢穗腐病表现抗性以上(含HR和R)的种质分别占总鉴定种质的56.5%和23.6%,在农家种中分别为21.2%和21.4%,表明玉米自交系中的抗性资源较农家种丰富。2009-2013年期间参加国家玉米区试的品种中,对腐霉茎腐病表现高抗、抗性、中抗、感病和高感的品种分别占11.5%、11.9%、40.1%、17.6%和18.9%。2009-2011年间,中抗以上的育成品种所占比例呈现明显上升趋势,但2012-2013年间,中抗以上的品种所占比例呈下降趋势。     

外引玉米种质对两种穗腐病原镰孢菌抗性鉴定

采用双牙签接种技术,2016-2017年连续2年对从美国、加拿大、罗马尼亚、德国、法国、荷兰等国家引进的177份玉米种质资源抗玉米穗腐病原拟轮枝镰孢(F.verticillioides)和禾谷镰孢(F.graminearum)进行了鉴定。结果表明,鉴定的177份玉米种质资源中,对拟轮枝镰孢表现高抗(HR)的资源2份,占总数的1.13%;抗病(R)38份,占总数的21.47%;中抗(MR)75份,占总数的42.37%;感病(S)48份,占总数的27.12%;高感(HS)14份,占总数的7.91%。177份玉米种质资源中,对禾谷镰孢(F.graminearum)表现抗病(R)12份,占鉴定资源总数的6.78%;中抗(MR)66份,占总数的37.29%;感病(S)64份,占总数的36.16%;高感(HS)35份,占总数的19.77%,未发现对禾谷镰孢菌表现高抗的材料。在177份玉米种质资源中,兼抗两种穗腐病原镰孢菌的种质资源有12份。     

In vitro influence of bacterial mixtures on Fusarium verticillioides growth and fumonisin B1 production: effect of seeds treatment on maize root colonization

AIMS: Enterobacter cloacae, Microbacterium oleovorans, Pseudomonas solanacearum and Bacillus subtilis were investigated in order to evaluate: (i) the inoculum size of two bacterial mixtures on Fusarium verticillioides growth and fumonisin B1 production in vitro at different water activities and (ii) the efficacy of a seed treatment with the best bacterial mixture on F. verticillioides root colonization in greenhouse studies. METHODS AND RESULTS: The influence of bacterial mixtures (1 = E. cloacae and M. oleovorans and 2 = P. solanacearum and B. subtilis) to antagonize 13 F. verticillioides strains at different inoculum concentrations (10(8), 10(9) and 10(10) cells ml(-1)) and water activities (0.937, 0.955 and 0.982 aW) were examined. Antibiosis, growth rate and fumonisin B1 production were determined. Bacterial mixture 1 proved to exert the most effective control. Seed treatment with mixture 1 at 10(8) cells ml(-1) had the best inhibitory effect on F. verticillioides root colonization. CONCLUSIONS: These results suggest that the combination E. cloacae and M. oleovorans has the potential for the biological control of F. verticillioides as a maize seed inoculant. SIGNIFICANCE AND IMPACT OF THE STUDY: The application of this knowledge contributes to prevent the vertical transmission of F. verticillioides.     

The effect of Fusarium verticillioides on oviposition behaviour and bionomics of lepidopteran and coleopteran pests attacking the stem and cobs of maize in West Africa

Abstract The effect of Fusarium verticillioides Sacc. (Nirenberg) in maize stem and grain on the oviposition behaviour and bionomics of lepidopteran and coleopteran pests in West Africa was studied in olfactometer, greenhouse, and field trials in Benin. In a choice experiment, the pyralid Eldana saccharina (Walker) laid on average 31.9 eggs on inoculated maize stems vs. 9.2 and 7.8 on stems from plants, grown from hot‐water or fungicide treated seeds, respectively. For the pyralid Mussidia nigrivenella (Ragonot) the values were 42.1 in the inoculation and 7.8 eggs in the fungicide treatment. The survival of E. saccharina larvae was significantly higher from the inoculation than the hot‐water or fungicide treatments. Fecundity in the three treatments was 494, 307, and 268 eggs per female, respectively. In an olfactometer experiment, no significant differences were found in the time spent by the curculionid Sitophilus zeamais Motschulsky between the odor field with Fusarium‐infected grain and with uninfected grain, but both were significantly different from the controls. Significant differences were obtained for the nitidulid Carpophilus dimidiatus (Fabricius) with 50.5 and 35.8%, respectively, of the time spent in the Fusarium‐infected and non‐infected odor field. For both species, no differences were found between sexes. For S. zeamais, development time was significantly higher when reared on infected (37.2 days) than on non‐infected grain (34.4 days), whereas fecundity, expressed as number of progenies during the first 4 weeks, was lower on the inoculated grain (11 vs. 16 offspring per female). For C. dimidiatus the situation was the reverse: development time was shorter and fecundity was higher on infected grain (32.4 vs. 34.4 days, and 18 vs. 13 offspring per female, respectively). It was concluded that the higher pest densities found in the stem and ear of field grown maize was due to a higher attraction to and higher immature survival and adult fecundity on F. verticillioides infected plants.     

Antagonistic potential of Trichoderma longibrachiatum and T. hamatum resident on maize (Zea mays) plant against Fusarium verticillioides (Nirenberg) isolated from rotting maize stem

Antagonistic potential of Trichoderma longibrachiatum and T. hamatum against the pathogen Fusarium verticillioides was examined in the laboratory. This was done by pairing each Trichoderma species with the pathogen on 9 cm Petri plates of acidified potato dextrose agar (APDA). Three pairing methods were employed and gradings were assigned to different radial growth suppression of F. verticillioides by each Trichoderma species. Analysis was done using the GLM procedure of the SAS package. Both Trichoderma species significantly inhibited radial growth of F. verticillioides (P = 0.01, R ² = 0.99) irrespective of pairing method. ‘Inoculating antagonist before pathogen’ supported the best growth inhibition of F. verticillioides by both Trichoderma species. Both Trichoderma species differed significantly (P > 0.0029) in inhibiting radial growth of F. verticillioides. Growth inhibition differed significantly within (P > 0.0059) and among (P > 0.0001) pairing methods. T. longibrachiatum was significantly better than T. hamatum in inhibiting radial growth of F. verticillioides, even at P = 0.01. T. hamatum and T. longibrachiatum could thus be said to show promising antagonistic potential against F. verticillioides with the latter showing better prospects.     

Evaluation of maize inbred lines resistance to ear rot disease and fumonisin accumulation in Moghan

Reaction of 10 maize inbred lines against Fusarium verticillioides and fumonisin accumulation were evaluated under field conditions with three replications in Pars Abad-e-Moghan, Iran. For artificial inoculation, the inbred lines were inoculated with spore suspension in concentration of 1 × 10⁶ ml^?1 7–10 days after emergence of silk, using nail punch method. To evaluate the development of the disease, its severity percent and grain yield (g plant^?1) was determined two months after inoculation. Total fumonisin produced on maize grains were also evaluated by ELISA kits. The results showed inbred lines K19, K19/1 and K74/1 were susceptible and the rest of the inbred lines were moderately resistant to the diseases. Among moderately resistant inbred lines, A679 and K18 had lowest fumonisin accumulation. Average of the fumonisin accumulation under natural infection condition (control) was 3.37 mg kg^?1 while it was 29 mg kg^?1 under artificial infection condition, which was 760% more than control.     

Species-specific PCR Assays for the Fungal Pathogens Fusarium moniliforme and Fusarium subglutinans and their Application to Diagnose Maize Ear Rot Disease

Fusarium moniliforme Sheldon (syn. F. verticillioides (Sacc.) Nirenberg) and F. subglutinans (Wollenweber & Reinking) Nelson Toussoun & Marasas comb. nov., two anamorphs of the so-called‘Gibberella fujikuroi species complex', are important maize pathogens. Together with F. proliferatum, F. culmorum, and F. graminearum (teleomorph: Gibberella zeae) they are involved in the stalk rot and ear rot disease of maize. All species produce secondary metabolites (mycotoxins) which are a potential health hazard for humans and animals that consume maize and maize products frequently. In this study the development of polymerase chain reaction (PCR) assays for an easy and sensitive identification of G. fujikuroi anamorphs in maize kernels are described. The primer pairs are based on sequences of randomly amplified polymorphic DNA (RAPD) fragments and are specific for F. moniliforme and F. subglutinans respectively. The PCR assays are independent of the high phenotypic variability of traits which may complicate classification by morphological characters. They detect approximately 100 to 200 fungal genomes in the presence of an excess of maize DNA. For the analysis of infected maize kernels a rapid and easy DNA extraction was used which does not introduce inhibitory substances into the PCR. Hence the assays enable an early identification and detection of the two pathogens in host tissue by plant breeders and plant health inspection services. The assays were successfully applied to identify field isolates from Poland and to detect the pathogens in maize ears of various hybrids in Germany.     

Potential of fungal antagonists for biocontrol of Fusarium spp. in wheat and maize through competition in crop debris

Pathogenic Fusarium spp. cause head blight in wheat or ear rot in maize leading to yield losses and also a reduction in quality due to mycotoxin contamination of the grain. Infected crop residues are the main inoculum source for epidemics. Saprophytic fungi, obtained from cereal tissues or necrotic tissues of other crops, were screened for their ability to colonise wheat straw and maize stalks and to suppress sporulation of pathogenic Fusarium spp. Results of bio-assays conducted under controlled conditions were variable among Fusarium spp. and host substrates for most antagonists tested, such as yeasts, Trichoderma spp. and non-pathogenic Fusarium spp. Isolates of Clonostachys rosea consistently suppressed sporulation of F. culmorum and F. graminearum on wheat straw, and of F. culmorum, F. graminearum, F. proliferatum and F. verticillioides on maize stalks. Isolates of C. rosea, C. cladosporioides and F. equiseti were applied to pieces of maize stalks or flowering ears in preliminary experiments conducted under field conditions. The colonisation of stalk pieces by pathogenic Fusarium spp. was assessed after 9 months. Colonisation of stalk pieces by pathogenic Fusarium spp. was significantly reduced at several sampling dates. However, results obtained with the antagonists were not consistent for all sampling dates and between experiments.     

Oxylipins from both pathogen and host antagonize jasmonic acid‐mediated defence via the 9‐lipoxygenase pathway in Fusarium verticillioides infection of maize

Oxylipins are a newly emerging group of signals that serve defence roles or promote virulence. To identify specific host and fungal genes and oxylipins governing the interactions between maize and Fusarium verticillioides, maize wild‐type and lipoxygenase3 (lox3) mutant were inoculated with either F. verticillioides wild‐type or linoleate‐diol‐synthase 1‐deleted mutant (ΔFvlds1D). The results showed that lox3 mutants were more resistant to F. verticillioides. The reduced colonization on lox3 was associated with reduced fumonisin production and with a stronger and earlier induction of ZmLOX4, ZmLOX5 and ZmLOX12. In addition to the reported defence function of ZmLOX12, we showed that lox4 and lox5 mutants were more susceptible to F. verticillioides and possessed decreased jasmonate levels during infection, suggesting that these genes are essential for jasmonic acid (JA)‐mediated defence. Oxylipin profiling revealed a dramatic reduction in fungal linoleate diol synthase 1 (LDS1)‐derived oxylipins, especially 8‐HpODE (8‐hydroperoxyoctadecenoic acid), in infected lox3 kernels, indicating the importance of this molecule in virulence. Collectively, we make the following conclusions: (1) LOX3 is a major susceptibility factor induced by fungal LDS1‐derived oxylipins to suppress JA‐stimulating 9‐LOXs; (2) LOX3‐mediated signalling promotes the biosynthesis of virulence‐promoting oxylipins in the fungus; and (3) both fungal LDS1‐ and host LOX3‐produced oxylipins are essential for the normal infection and colonization processes of maize seed by F. verticillioides.     

Biochemical responses associated with resistance to bacterial stalk rot caused by Dickeya zeae in maize

Bacterial stalk rot (BSR) of maize caused by Dickeya zeae is an important disease in northwest region of India. In the current study, eighty maize lines were evaluated for resistance against this disease. Of these, 20 were moderately resistant, 25 were moderately susceptible and the rest were highly susceptible to BSR. Six lines from each set were randomly selected. Activities of three antioxidant enzymes, viz. phenylalanine ammonia lyase (PAL), peroxidase (POX) and polyphenol oxidase (PPO) were analysed from these three sets of maize lines representing different levels of resistance. A trend of elevated activity of PAL, POX and PPO was observed in all the three sets of maize lines. The results showed significantly more activity of these three enzymes in moderately resistant than highly susceptible maize lines. The activity of PAL and PPO peaked after 48 hr and of POX after 72 hr of challenge inoculation by D. zeae in all the maize lines. The activity of these enzymes further correlated negatively with disease development. Our results show that PAL, POX and PPO play an important role in contributing towards resistance in maize against BSR.     

玉米种质抗拟轮枝镰孢与禾谷镰孢穗腐病鉴定及抗性多样性分析

穗腐病是玉米生产上最重要的病害之一,严重影响其产量和品质,威胁人畜健康.选育和利用优良的抗穗腐病品种,是防治玉米穗腐病最为经济有效的措施.利用花丝通道注射法,在北京昌平和海南三亚2个试验点,对346份玉米自交系进行了抗拟轮枝镰孢与禾谷镰孢穗腐病的鉴定与评价.综合分析2个试验点的抗性鉴定数据表明,对拟轮枝镰孢穗腐病表现高...