小麦赤霉病镰孢菌毒素的生物合成及其分子调控

禾谷镰刀菌是小麦赤霉病的主要致病菌,其真菌次生代谢产生的单端孢霉烯类B型毒素,如雪腐镰刀菌烯醇(nivalenol,NIV)、脱氧雪腐镰刀菌烯醇(deoxynivalenol,DON)和其它乙酰化衍生物等污染小麦籽粒后对人畜健康构成威胁。综述了近年来国内外对小麦赤霉病镰孢菌单端孢霉烯类B型毒素生物合成的主要途径及分子调控研究进展,对毒素合成过程中的重要调控基因如TRI5、TRI7和TRI13在农业中的应用进行了阐述。     

小麦赤霉病菌细胞壁提取物(HCW)的生物活性*

从小麦赤霉病菌一禾谷镰孢 Fusarium gramtnearum Schw．强致病力(F15)和弱致病力(H28)菌株的菌丝细胞壁制备获得提取物(HCW),分别在抗病和感病小麦品种上对其生物括性进行了测定。结果表明,HCW可显著提高小麦黄化芽鞘、愈伤组织和穗组织等的苯丙氨酸解氨酶(PAL)和黄化芽鞘组织的脂氧合酶(LOX)的活力,但不影响小麦黄化芽鞘的生长。强、弱致病力菌株的Hcw的生物活性无明显差异,抗、感病品种对}删的反应也基本一致。禾谷镰孢产生的一种单端孢霉烯族毒素一脱氧雪腐镰刀菌烯醇(DON)也具有类似的生物活性。HCW和DON均可抑制病菌的生长,但这种抑制作用又可部分互相抵消。     

禾谷镰孢菌高产毒菌株的构建*

为研究禾谷镰孢菌Fusarium graminearum Schw.单端孢霉烯族毒素生物合成基因（产毒基因）在寄主体内的表达,作者构建了带报告基因GUS（(-葡糖苷酸酶基因）的质粒pGUSTRI6P5,并通过对野生型菌株的转化获得禾谷镰孢高产毒菌株。该质粒含有由TRI5（禾谷镰孢单端孢霉二烯合酶基因）启动子（TRI5 Prom）驱动的GUS基因编码区、潮霉素B抗性基因和拟枝孢镰孢F. sporotrichioides的产毒调控基因TRI6（FSTRI6）。用pGUSTRI6P5转化野生型菌株GZ3639后,在含潮霉素 B的培养基上选取抗性菌落,单孢分离获单孢菌株（转化子）。在GYEP（葡萄糖-酵母粉-蛋白胨）液体培养基上,转化子B4-1和B16-1的GUS比活力强,15-AcDON（15-乙酰脱氧雪腐镰刀菌烯醇）产量高,且两者呈正相关（相关系数（r）分别为0.9839和0.9523）。B4-1和B16-1两个转化子可作为研究禾谷镰孢与其寄主相互作用的工具菌株。     

抗脱氧雪腐镰刀菌烯醇单克隆抗体的制备

[目的]小麦赤霉病菌产生的毒素不仅在病害发展过程中具有加重赤霉病的作用,而且污染谷物导致严重的食用安全性问题.由于赤霉病的普遍发生,有必要建立快速、灵敏、有效的毒素检测方法,本试验旨在制备可用于检测被脱氧雪腐镰刀菌烯醇污染的粮谷类特异性单克隆抗体.[方法]本实验首先将脱氧雪腐镰刀菌烯醇(DON)的衍生物3-半琥珀酰-脱氧雪腐镰刀菌烯醇(3-HS-DON-OVA)与卵清蛋白(OVA)采用碳化二亚胺法进行偶联得到人工抗原,以此人工抗原免疫BALB/C小鼠,取该鼠脾细胞与SP2/O鼠骨髓瘤细胞融合,经筛选和克隆,得到了1株能稳定分泌DON抗体的单克隆细胞株(382),并制备单克隆抗体腹水.[结果]经检测382的抗体类型及亚类均为IgG1,其轻链为κ链.腹水通过间接酶联免疫吸附测定效价在1×10-7以上.该单克隆抗体与脱氧雪腐镰刀菌烯醇特异性结合反应的50%抑制质量浓度为29 μg/L,除与3-acetyldeoxynivalenol(3-Ac-DON)的交叉反应率为78.38%,与其他脱氧雪腐镰刀菌烯醇结构类似物无交叉反应.[结论]本实验所制备的单克隆抗体有较高的灵敏度和特异性,具有较好的应用价值.     

禾谷镰孢菌高产毒菌株的构建

为研究禾谷镰孢菌Fusarium graminearum Schw.单端孢霉烯族毒素生物合成基因（产毒基因）在寄主体内的表达,作者构建了带报告基因GUS（β-葡糖苷酸酶基因）的质粒pGUSTRI6P5,并通过对野生型菌株的转化获得禾谷镰孢高产毒菌株,该质粒含有由TRI5（禾谷镰隐单端孢霉的二烯合酶基因）启动子（TRI5 Prom)驱动的GUS基因编码区、潮霉素B抗性基因和拟枝孢镰孢F.sporotrichioides的产毒调控基因TRI6（FSTR16）。用pGUSTRI6P5转化野生型菌株GZ3639后,在含潮霉素B的培养基上选取抗性菌落。单孢分离获单孢菌株（转化子）。在GYEP（葡萄糖-酵母粉-蛋白胨）液体培养基上,转化子B4-1和B16-1的GUS比活力强,15-AcDON(15-乙酰脱氧雪腐镰鼠菌烯醇）产量高,且两者呈正相关（相关系数（r)分别为0.9839和0.9523)。B41-1和B16-1两个转化子可作为研究禾谷镰孢与其寄主相互作用的工具菌株。     

小麦赤霉病菌细胞壁提取物(HCW)的生物活性

从小麦赤霉病菌－禾谷镰孢ＦｕｓａｒｉｕｍｇｒａｍｉｎｅａｒｕｍＳｃｈｗ．强致病力（Ｆ15）和弱致病力（Ｈ２８）菌株的菌丝细胞壁制备获得提取物（ＨＣＷ）,分别在抗病和感病小麦品种上对其生物活性进行了测定。结果表明,ＨＣＷ可显著提高小麦黄化芽鞘、愈伤组织和穗组织等的苯丙氨酸解氨酶（ＰＡＬ）和黄化芽鞘组织的脂氧合酶（ＬＯＸ）的活力,但不影响小麦黄化芽鞘的生长。强、弱致病力菌株的ＨＣＷ的生物活性无明显差异,抗、感病品种对ＨＣＷ的反应也基本一致。禾谷镰孢产生的一种单端孢霉烯族毒素－脱氧雪腐镰刀菌烯醇（ＤＯＮ）也具有类似的生物活性．ＨＣＷ和ＤＯＮ均可抑制病菌的生长,但这种抑制作用又可部分互相抵消．     

抗病小麦对脱氧雪腐镰刀菌烯醇的脱毒及产物的生物活性

抗赤霉病小麦品种苏麦3号、繁9能转化镰刀菌毒素脱氧雪腐镰刀菌烯醇(DON)成产物X,而感病小麦品种宁麦6号、徐州21无转化能力。产物X对小麦黄化芽鞘的伸长生长无抑制作用,而对禾谷镰刀菌分生孢子的萌发有明显抑制。说明抗性小麦品种对赤霉病菌毒素的脱毒是小麦重要的抗赤霉病机制。     

抗病小麦对脱氧雪腐镰刀菌烯醇的脱毒及产物的生物活性

抗赤霉病小麦品种苏麦３号、繁９能转化镰刀菌毒素脱氧雪腐镰刀菌烯醇（ＤＯＮ）成产物Ｘ,而感病小麦品种宁麦６号、徐州２１无转化能力。产物Ｘ对小麦黄花芽鞘的伸长生长无抑制作用,而对禾谷镰刀菌分生孢子的萌发有明显抑制。说明抗性小麦品种对赤霉病菌毒素的脱毒是小麦重要的抗赤霉病机制。     

单端孢菌素类毒素对机体免疫机能的影响

单端泡菌素类毒素（Thichothecene）是T-2毒素（T-2toxin）、雪腐链刀菌烯醇（Mivalenol,NIV）、脱氧雪腐链刀菌烯醇（Deoxynivalenol,DON;又名呕吐毒素,Votoxin,VT）、VemicarinA（verA）、Scipentriol（STO）等一类毒素的总称,是粮食中最常见的一类污染性霉菌毒素,多为     

鸡舍环境中镰孢菌的种类分布及潜在产单端孢霉烯族毒素菌株的检测

采用AGI-30生物采样器收集鸡舍空气样本,同时采集鸡舍中饲料、积尘、土壤和饮用水在内的环境基质样品。采用形态学方法对分离获得的镰孢菌菌株进行鉴定,利用tri5-PCR技术对镰孢菌菌株中产单端孢霉烯族毒素的菌株进行检测,目的是探明鸡舍环境中镰孢菌种类的分布特征和产毒菌株。结果表明,从采集的50份样品中分离获得139个镰孢菌菌株,鸡舍空气和基质中的优势菌株均为Fusarium verticillioides;在各基质中,土壤中镰孢菌总浓度最高,为4×102–1.35×104CFU/g,其次为饲料和饮用水;采用tri5-PCR技术筛选到42株tri5阳性镰孢菌菌株,其中以F. graminearum所占比例最高。研究明确鸡舍中镰孢菌种类及其分布特征对鸡只疾病控制及保障人类和动物的健康具有重要意义。     

Population analysis of the Fusarium graminearum species complex from wheat in China show a shift to more aggressive isolates

A large number of Fusarium isolates was collected from blighted wheat spikes originating from 175 sampling sites, covering 15 provinces in China. Species and trichothecene chemotype determination by multilocus genotyping (MLGT) indicated that F. graminearum s. str. with the 15-acetyl deoxynivalenol (15ADON) chemotype and F. asiaticum with either the nivalenol (NIV) or the 3-acetyl deoxynivalenol (3ADON) chemotype were the dominant causal agents. Bayesian model-based clustering with allele data obtained with 12 variable number of tandem repeats (VNTR) markers, detected three genetic clusters that also show distinct chemotypes. High levels of population genetic differentiation and low levels of effective number of migrants were observed between these three clusters. Additional genotypic analyses revealed that F. graminearum s. str. and F. asiaticum are sympatric. In addition, composition analysis of these clusters indicated a biased gene flow from 3ADON to NIV producers in F. asiaticum. In phenotypic analyses, F. asiaticum that produce 3ADON revealed significant advantages over F. asiaticum that produce NIV in pathogenicity, growth rate, fecundity, conidial length, trichothecene accumulation and resistance to benzimidazole. These results suggest that natural selection drives the spread of a more vigorous, more toxigenic pathogen population which also shows higher levels of fungicide resistance.     

Mycological survey of Korean cereals and production of mycotoxins by Fusarium isolates

The fungal species isolated from Korean cereals (barley, polished barley, wheat, rye, and malt) were Alternaria spp., Aspergillus spp., Chaetomium spp., Drechslera spp., Epicoccum sp., Fusarium spp., and Penicillium spp., etc. The number of Fusarium strains isolated was 36, and their ability to produce Fusarium mycotoxins on rice was tested. Nivalenol (NIV) was produced by Fusarium graminearum (7 of 9 isolates), Fusarium oxysporum (3 of 10 isolates), and Fusarium spp. (7 of 15 isolates). Of 15 isolates of Fusarium spp., 6 formed deoxynivalenol (DON). Fusarenon-X and 3-acetyl-DON were produced by most NIV- and DON-forming isolates, respectively. Zearalenone was produced by 3 isolates of F. graminearum, 1 isolate of Fusarium equiseti, and 11 isolates of Fusarium spp. T-2 toxin was not produced by any Fusarium isolates. The highest concentrations of mycotoxins produced by Fusarium isolates were 77.4 (NIV), 5.3 (DON), 138.3 (fusarenon-X), 40.6 (3-acetyl-DON), and 23.2 (zearalenone) micrograms/g.     

Genetic diversity and trichothecene chemotypes of the Fusarium graminearum clade isolated from maize in Nepal and identification of a putative new lineage

On smallholder farms in the foothills of the Himalayan Mountains in Nepal, fungi of the Fusarium graminearum clade cause Gibberella ear rot of maize and contamination with the 8-ketotrichothecenes nivalenol and deoxynivalenol. Previous DNA marker analyses of the F.?graminearum clade from maize in Nepal found a high level of genetic diversity but were limited in detail or scope. The present study incorporated a collection of 251 field strains from a wide geographic distribution in Nepal and utilized sequencing of the MAT1-1-3 gene of the mating type locus to determine the number and frequency of lineages and species of the F. graminearum clade. The frequency of nivalenol and deoxynivalenol chemotypes was determined by chemical analysis and by TRI13 deletion-marker analysis. We found that Gibberella ear rot of maize in Nepal is associated with a complex of species of the F. graminearum clade - mainly Fusarium asiaticum and Fusarium meridionale, but also Fusarium boothii and a putative new lineage, which we have designated the 'Nepal lineage'. Fusarium graminearum sensu stricto, which dominates in maize elsewhere in Asia and worldwide, was not detected in Nepal. Although nivalenol production has been associated experimentally with lower virulence in maize ear rot and wheat head blight, this collection of the F. graminearum clade from maize in Nepal is dominated (4:1) by nivalenol producers, suggesting that traits other than crop plant pathogenesis affect population structure in this complex agroecosystem.     

Mycological survey of Korean cereals and production of mycotoxins by Fusarium isolates.

The fungal species isolated from Korean cereals (barley, polished barley, wheat, rye, and malt) were Alternaria spp., Aspergillus spp., Chaetomium spp., Drechslera spp., Epicoccum sp., Fusarium spp., and Penicillium spp., etc. The number of Fusarium strains isolated was 36, and their ability to produce Fusarium mycotoxins on rice was tested. Nivalenol (NIV) was produced by Fusarium graminearum (7 of 9 isolates), Fusarium oxysporum (3 of 10 isolates), and Fusarium spp. (7 of 15 isolates). Of 15 isolates of Fusarium spp., 6 formed deoxynivalenol (DON). Fusarenon-X and 3-acetyl-DON were produced by most NIV- and DON-forming isolates, respectively. Zearalenone was produced by 3 isolates of F. graminearum, 1 isolate of Fusarium equiseti, and 11 isolates of Fusarium spp. T-2 toxin was not produced by any Fusarium isolates. The highest concentrations of mycotoxins produced by Fusarium isolates were 77.4 (NIV), 5.3 (DON), 138.3 (fusarenon-X), 40.6 (3-acetyl-DON), and 23.2 (zearalenone) micrograms/g.     

PCR Analysis of the Tri13 gene to Determine the Genetic Potential of Fusarium graminearum Isolates from Iran to Produce Nivalenol and Deoxynivalenol

Fusarium graminearum trichothecene producing isolates can be broadly divided into two chemotypes based on the production of the 8- ketotrichothecenes deoxynivalenol (DON) and nivalenol (NIV). Functional Tri13 gene required for the production of NIV and 4- acetyl NIV, whereas in the isolates producing DON and its acetylated derivates, this gene is nonfunctional. In this study, a total of 57 isolates from different fields of Mazandaran province, Iran were identified as F. graminearum using classical methods and species specific primers. In order to assess the potential of isolates to produce NIV or DON, we used PCR to determine whether isolates carried a functional or nonfunctional Tri13 gene. Out of the 57 tested F. graminearum isolates with Tri13 PCR assays, 46 yielded an amplicon similar to the size predicted for nivalenol production, while 11 yielded an amplicon similar to the size predicted for deoxynivalenol production. From regions where more than one F. graminearum isolate was obtained, isolates were not exclusively of a single chemotype. It seems that genetic diversity among the isolates has relation with geographical region and wheat cultivar. The assay can provide information about the distribution of Tri13 haplotype that can be used in tracing of trichothecene contaminated samples.     

Pathogenicity of Fusarium graminearum Chemotypes Towards Corn, Wheat, Triticale and Rye

The pathogenicity of nine Fusarium graminearum isolates belonging to three different trichothecene-producing chemotypes, i.e. NIV + FUS, DON + 3-AcDON, and DON + 15-AcDON was tested on corn, wheat, triticale and rye. Although these compounds are known to have different toxicity, no difference in pathogenicity was observed among the mean values for chemotypes. However, within each chemotype there were isolates with different pathogenicity which was not correlated with the ability to produce trichothecenes in vitro. The pathogenicity of each isolate was almost the same for all tested cereals. The involvement of trichothecenes in pathogenesis was investigated in infected corn stalk tissues. All the expected trichothecenes were detected with the exception of NIV and FUS.     

Fusarium graminearum gene deletion mutants map1 and tri5 reveal similarities and differences in the pathogenicity requirements to cause disease on Arabidopsis and wheat floral tissue

The Ascomycete pathogen Fusarium graminearum can infect all cereal species and lower grain yield, quality and safety. The fungus can also cause disease on Arabidopsis thaliana. In this study, the disease-causing ability of two F. graminearum mutants was analysed to further explore the parallels between the wheat (Triticum aestivum) and Arabidopsis floral pathosystems. Wild-type F. graminearum (strain PH-1) and two isogenic transformants lacking either the mitogen-activated protein kinase MAP1 gene or the trichodiene synthase TRI5 gene were individually spray- or point-inoculated onto Arabidopsis and wheat floral tissue. Disease development was quantitatively assessed both macroscopically and microscopically and deoxynivalenol (DON) mycotoxin concentrations determined by enzyme-linked immunosorbent assay (ELISA). Wild-type strain inoculations caused high levels of disease in both plant species and significant DON production. The map1 mutant caused minimal disease and DON accumulation in both hosts. The tri5 mutant, which is unable to produce DON, exhibited reduced pathogenicity on wheat ears, causing only discrete eye-shaped lesions on spikelets which failed to infect the rachis. By contrast, the tri5 mutant retained full pathogenicity on Arabidopsis floral tissue. This study reveals that DON mycotoxin production is not required for F. graminearum to colonize Arabidopsis floral tissue.     

Determination of the trichothecene mycotoxin chemotypes and associated geographical distribution and phylogenetic species of the Fusarium graminearum clade from China

A large number of isolates from the Fusarium graminearum clade representing all regions in China with a known history of Fusarium head blight (FHB) epidemics in wheat were assayed using PCR to ascertain their trichothecene mycotoxin chemotypes and associated phylogenetic species and geographical distribution. Of the 299 isolates assayed, 231 are from F. asiaticum species lineage 6, which produce deoxynivalenol and 3-acetyldeoxynivalenol (3-AcDON); deoxynivalenol and 15-acetyldeoxynivalenol (15-AcDON); and nivalenol and 4-acetylnivalenol (NIV) mycotoxins, with 3-AcDON being the predominant chemotype. Ninety-five percent of this species originated from the warmer regions where the annual average temperatures were above 15 °C, based on the climate data of 30 y during 1970–1999. However, 68 isolates within F. graminearum species lineage 7 consisted only of 15-AcDON producers, 59 % of which were from the cooler regions where the annual average temperatures were 15 °C or lower. Identification of a new subpopulation of 15-AcDON producers revealed a molecular distinction between F. graminearum and F. asiaticum that produce 15-AcDON. An 11-bp repeat is present in F. graminearum within their Tri7 gene sequences but is absent in F. asiaticum, which could be directly used for differentiating the two phylogenetic species of the F. graminearum clade.