Evidence for the independent regulation of hyphal extension and branch initiation in Fusarium graminearum A3 5

Abstract Addition of 100 μM choline chloride to the medium increased (by approx. 36%) both the length of the hyphal growth unit ( G a measure of mycelial branching) and the mean hyphal extension rate ( E ) of Fusarium graminearum but did not increase the maximum rate of extension of the hyphae ( E _max). The paramorphogen, edifenphos (Hinosan) reduced G and E without affecting specific growth rate (μ). However, when mycelia were treated with edifenphos plus choline, μ was reduced, G was increased by approx. 35%, but E and E _max were not affected. The results suggest that the primary effect of edifenphos is inhibition of hyphal extension, whilst the primary effect of choline is inhibition of branch initiation.     

禾谷镰孢菌果胶裂解酶PelA的生物学功能分析

果胶裂解酶是果胶酶的重要成员之一,能够通过B-消除作用,催化降解（1—4）-α-D-聚半乳糖醛酸。本研究首次鉴定出禾谷镰孢茵中的一个果胶裂解酶PelA,并在体外检测了其生化特性。PelA基因（FGSG_02386）的cDNA被克隆并进行了原核表达,同时构建了单基因敲除突变体。将重组质粒pET-28a（＋）-PelA转化蛋白表达菌株大肠杆菌BL21表达目的蛋白,纯化后的蛋白具有果胶裂解酶活性。酶活性测定结果显示,该酶的活性受到外界环境因素如温度、钙离子浓度和pH条件的影响,其最适反应条件为50℃,CaCl：浓度0-5mmol·L^-1,pH8-5。在侵染小麦胚芽鞘时PelA单基因突变体的毒力较野生型菌株并没有出现明显变化。     

青色荧光蛋白标记的禾谷镰孢转化子的构建

【背景】近年来玉米茎腐病在我国大部分玉米产区普遍重度发生,其中镰孢菌茎腐病不仅造成了重大的经济损失,而且镰孢菌产生的毒素给人体和动物的健康也带来严重威胁。【目的】玉米茎腐病的病原组成复杂,禾谷镰孢是其中的主要病原之一,该病原菌侵染寄主导致发病的机制急需深入研究。【方法】以pCAMBIA1300质粒为骨架,利用重叠PCR的方法构建表达青色荧光蛋白的质粒pCAMBIA1300-CFP-Kan,通过农杆菌介导的遗传转化技术,将青色荧光蛋白的编码基因整合到禾谷镰孢基因组中。【结果】经过PCR鉴定和荧光显微观察,确定获得了31株青色荧光标记的禾谷镰孢菌。【结论】侵染试验结果显示,激光共聚焦显微镜下禾谷镰孢在玉米茎秆组织中的定殖位置清晰可见,该结果为进一步研究不同镰孢菌在寄主中的定殖规律奠定了基础。     

小麦赤霉病菌对多菌灵的抗药性与a2-微管蛋白序列无关析

【目的】研究小麦赤霉病菌对多菌灵的抗药性与a2-微管蛋白基因的相关性。【方法】比较对多菌灵不同敏感性水平菌株间在药剂作用下的形态学特征及其a2-微管蛋白基因异同。【结果】当敏感菌株和田间中抗菌株均在各自EC50 和EC90浓度作用下,两者分生孢子芽管和初生菌丝均表现畸形,肿胀,分支增多。根据小麦赤霉病菌核基因组测序菌株NRRL31 084（PH-1）的a2-微管蛋白基因核苷酸序列设计4对引物,采用PCR方法克隆并测定了小麦赤霉病菌（Fusarium graminearum）对多菌灵（MBC）不同敏感性表型的8个中国菌株的a2-微管蛋白基因全序列。DNA序列比对结果表明中国的4个敏感菌株和4个抗药性菌株的a2-微管蛋白基因核苷酸序列同源性没有差异,多菌灵抗药性与a2-微管蛋白无关。该基因全长1712 bp,含有4 个内元,编码453 aa;与NRRL31 084的a2-微管蛋白基因核苷酸序列同源性为99%,存在5个差异核苷酸,与其所编码的氨基酸序列同源性为100%;与其他9种真菌a2-微管蛋白基因所编码的氨基酸序列同源性为64%~89%。【结论】小麦赤霉病菌对多菌灵的抗药性与a2-微管蛋白序列无关。     

纳米银对小麦赤霉病菌的抑制

采用化学还原法制备纳米银,以小麦赤霉病菌为受试菌株,研究纳米银对小麦赤霉病菌抗菌活性、对细胞内3种保护酶:超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)活性和对细胞渗透调节物质:丙二醛(MDA)、可溶性蛋白、可溶性糖含量的影响。结果表明:纳米银能显著抑制小麦赤霉病菌的生长,抑制作用随着浓度的增加而不断增大,10μg/mL的纳米银对病原菌的抑制率达90%以上,有效中浓度(EC_(50))为0.59μg/mL。随着纳米银处理时间(2、4、6、8和10 h)的增长,3种酶的活性均出现先增加后降低的变化。SOD、POD和CAT均在4 h出现最高值,10 h降至最低。纳米银使得菌体内丙二醛含量增加,可溶性蛋白和可溶性糖含量降低。纳米银破坏了病原真菌体内细胞的完整性,这可能是纳米银抑制病原菌生长的机理之一。     

小麦响应禾谷镰刀菌侵染的转录组学研究进展

由禾谷镰刀菌引起的小麦赤霉病直接为害作物穗部,不仅严重影响小麦产量,还可因为毒素污染问题威胁人畜健康。近年来对小麦与禾谷镰刀菌互作的转录组学研究带来了很多新见解,概述了小麦响应禾谷镰刀菌侵染的转录组学研究进展,主要比较了不同抗性品种、不同器官、不同籽粒发育时期的小麦穗部在禾谷镰刀菌侵染时的基因表达特征,总结了赤霉病感染时小麦的激素响应、信号传导、转录调控和防卫相关基因的表达规律,以期促进研究者对小麦响应禾谷镰刀菌侵染规律的理解。     

Nutrient-dependent selection of morphological mutants of Fusarium graminearum A3/5 isolated from long-term continuous flow cultures

Highly branched (colonial) mutants (MC1-1-, CC1-1, and C106) of Fusarium graminearum A3/5 were each grown with the parental strain (A3/5) in continuous flow cultures at high and low dilution rates using a variety of nutrient limitations. MC1-1 replaced A3/5 in all nutrient-limited cultures tested (glucose-, Mg(2+)-, ammonium-, and sulphate-limited cultures), suggesting that it has a higher maximum specific growh rate than A3/5. Compared with A3/5, C106 was positively selected for in Mg(2+)-limited cultures and its selection coefficient was higher at low than at high dilution rates, suggesting that, compared with A3/5, it has a reduced saturation constant (K(s)) for Mg(2+). However, in batch culture, C106 and A3/5 had the same (15 muM) appaent K(s) value for Mg(2+). C106 was replaced (negative selection coefficient) by A3/5 in gluose-, ammonium-, and phsophate-limited continuous flow cultures, but was neither at an advantage nor a disadvantage (i.e., it behaved as a neutral mutation) in sulphate-limited cultures. CC1-1 replaced A3/5 when they were grown together in glucose-, maltose-, or ribose-limited continuous flow cultures, but not in fructose-, xylose-, ammonium-, or phsophate-limited cultures. Because A3/5 and CC1-1 had similar K(m) values (30 muM) for glucose, and because the selective advantage of CC1-1 was maintained in maltose-limited cultures (maltose was not hydrolyzed extracellularly), it was concluded that the selective advantage of CC1-1 did not result from it having a lower K(s) for glucose than the parental strain. Rather, the data suggested that the activity of phosphoketopentoepimerase may be altered by the CC1-1 mutation. (c) 1992 John Wiley & Sons, Inc.     

禾谷镰刀菌基因组中含寄主靶向模体分泌蛋白功能的初步分析

基于生物信息学的方法,以SignalP v3.0、TargetP v1.01、Big-PI Predictor和TMHMM v2.0四个分析软件对禾谷镰刀菌(Fusarium graminearum Schw.)全基因组的11 640个蛋白编码基因的N-端氨基酸序列进行信号肽分析,预测出606个潜在的分泌蛋白编码基因.通过对这些潜在的分泌蛋白进行MEME软件分析,发现其中有157个分泌蛋白的剪切点下游120氨基酸残基范围内具有一个保守的RXLX模体,其中有79个分泌蛋白具有可预测的功能性描述,包括FG00023.1具有与草酸盐氧化酶1有关的功能,FG01588.1具有与1,4-α-葡糖苷酶葡聚糖有关的功能,这些基因可作为禾谷镰刀菌致病相关的候选基因.其中FG04097.1编码的具有与丝氨酸型蛋白酶有关的功能在致病疫霉和疟原虫真核寄生物中具有相似保守的寄主靶标模体的效应蛋白中也观察到,但FG09127.1,FG05287.1编码的蛋白尚未被证明参与致病过程的研究报道.深入研究分泌蛋白将有助于明确植物与病原微生物互作的分子机制.利用禾谷镰刀菌基因组学研究成果,结合计算机技术和生物信息学的方法,分析其分泌蛋白组学,将有助于全面掌握其致病因子的结构与功能.对于这些蛋白功能的比较研究,将有利于对禾谷镰刀菌致病性的分子机制的探索,并为设计新的防治措施提供理论依据.     

Genetic Diversity of Epicoccum nigrum and its Effects on Fusarium graminearum

Epicoccum nigrum is a saprophytic or endophytic fungus that is found worldwide. Because of the antagonist effects of E. nigrum on many plant pathogens, current studies on E. nigrum have focused on the development of biological control agents and the utilization of its various metabolites. In this study, E. nigrum was collected from a wheat field, and its genetic diversity was analyzed. Phylogenetic analyses identified 63 isolates of E. nigrum divided into seven groups, indicating a wide genetic diversity. Isolates antagonized the wheat pathogen Fusarium graminearum, and reduced disease symptoms caused by F. graminearum in wheat coleoptiles. Moreover, pretreatment of wheat coleoptiles with E. nigrum induced the upregulation of pathogen-related (PR) genes, PR1, PR2, PR3, PR5, PR9, and PR10 in wheat coleoptiles responding to F. graminearum invasion. Overall, this study indicates that E. nigrum isolates can be used as biological pathogen inhibitors applied in wheat fields.     

Comparative Analysis of Genetic Chemotyping Methods for Fusarium: Tri13 Polymorphism Does not Discriminate between 3‐ and 15‐acetylated Deoxynivalenol Chemotypes in Fusarium graminearum

Genetic chemotyping is an essential tool for characterizing Fusarium populations causing head blight on wheat and other cereals. Three PCR methods, based on tri cluster polymorphism, were optimized and compared on 94 single‐spore isolates obtained from three continents belonging to F. gramineaurm, F. culmorum, F. poae, F. avenaceum and Microdochium nivale. While the methods based on the tri3, tri7 and tri12 polymorphism correctly identified all the tested strains, the method based on tri13 polymorphism was unable to discriminate between the 3‐ and 15‐acetylated DON forms in F. graminearum. It is advised to avoid the use of tri13 polymorphism for genetic chemotyping of the two acetylated chemotypes.     

禾谷镰刀菌中FgPDE1基因的敲除及其功能的研究

目的:旨在敲除禾谷镰刀菌Fusarium graminearum Fg PDE1基因,确定其缺失突变体表型,从而分析该基因的生物学功能。方法:应用Split-marker技术构建含有潮霉素基因敲除盒,通过PEG介导原生质体转化,PCR筛查抗潮霉素转化子以获得缺失突变体ΔFg PDE1,根据突变体表型变化及致病性的检测对Fg PDE1基因的功能进行分析。结果:采用Split-marker技术,成功构建了Fg PDE1基因敲除盒;PEG介导转化禾谷镰刀菌原生质体后成功获得转化子。经PCR筛查,得到3个PCR确认的敲除突变体;表型观察发现,ΔFg PDE1菌落的外型及菌落生长速度与野生型没有明显差异。孢子侵染西红柿果实实验证明:以西红柿为侵染宿主,相对于野生型,突变体致病性没有明显减弱;但突变体分生孢子产量显著下降。结论:Fg PDE1基因可能与禾谷镰刀菌分生孢子的形成有关。     

Inhibition of Fusarium graminearum growth and development by farnesol

The isoprenoid farnesol was previously shown to induce morphological features characteristic of apoptosis in the filamentous fungus Aspergillus nidulans. This study demonstrates that under similar liquid media growth conditions, farnesol also triggers apoptosis in the plant pathogenic fungus Fusarium graminearum. However, unlike A. nidulans, F. graminearum spores treated with farnesol exhibited altered germination patterns and most (>60%) lysed upon prolonged exposure. Given the economic importance of F. graminearum as a pathogen of small grains, this study proposes that farnesol may have potential value as an antifungal compound.     

禾谷镰孢菌蛋白激酶FgCdc15功能的研究

细胞分裂是真核细胞生长发育的重要环节。本研究利用生物信息学的方法,通过使用酵母菌Cdc15蛋白激酶序列比对,发现禾谷镰孢菌中只存在一个Cdc15蛋白激酶。基因缺失的功能研究表明FgCDC15（FGSG_10381）基因敲除后,突变体菌落生长速度减慢,对小麦和玉米无致病力。FgCDC15基因敲除突变体产生的分生孢子外观形态正常,但隔膜数量变少,同时发现该基因在分生孢子阶段表达量最高。在有性生殖阶段,FgCDC15基因敲除突变体可产生极少量的子囊壳,但不产生子囊和子囊孢子。本文研究表明,禾谷镰孢菌蛋白激酶FgCdc15可能参与了有性和无性阶段的细胞分裂和生长,同时影响禾谷镰刀菌的致病毒力。     

Microtubule-assisted mechanism for toxisome assembly in Fusarium graminearum

In Fusarium graminearum, a trichothecene biosynthetic complex known as the toxisome forms ovoid and spherical structures in the remodelled endoplasmic reticulum (ER) under mycotoxin-inducing conditions. Previous studies also demonstrated that disruption of actin and tubulin results in a significant decrease in deoxynivalenol (DON) biosynthesis in F. graminearum. However, the functional association between the toxisome and microtubule components has not been clearly defined. In this study we tested the hypothesis that the microtubule network provides key support for toxisome assembly and thus facilitates DON biosynthesis. Through fluorescent live cell imaging, knockout mutant generation, and protein–protein interaction assays, we determined that two of the four F. graminearum tubulins, α₁ and β₂ tubulins, are indispensable for DON production. We also showed that these two tubulins are directly associated. When the α₁–β₂ tubulin heterodimer is disrupted, the metabolic activity of the toxisome is significantly suppressed, which leads to significant DON biosynthesis impairment. Similar phenotypic outcomes were shown when F. graminearum wild type was treated with carbendazim, a fungicide that binds to microtubules and disrupts spindle formation. Based on our results, we propose a model where α₁–β₂ tubulin heterodimer serves as the scaffold for functional toxisome assembly in F. graminearum.     

Contamination of malt barley and wheat by Fusarium graminearum and Fusarium culmorum from the crop years 2001-2003 in eastern Croatia

This study investigated infection levels with Fusarium graminearum and Fusarium culmorum in malt barley and wheat in eastern Croatia. The contamination was surveyed over three consecutive crop years (2001–2003) on five locations for barley and three wheat cultivating locations. F. graminearum loads reached levels of potentially serious threat for the commercial production of malting raw materials in both cereals (up to 29.1%). On the other hand, the mean percentage of kernels infected with F. culmorum was low to medium (up to 6.1%). The fungal invasions for years and locations were affected by meteorologic and other environmental factors and the pattern seemed to be consistent with species-specific optimal conditions reported by other authors.     

Development of a generic PCR detection of deoxynivalenol- and nivalenol-chemotypes of Fusarium graminearum

Based on the intergenic sequences of Tri5-Tri6 genes involved in the mycotoxin pathways of Fusarium species, a generic PCR assay was developed to detect a 300 bp fragment of deoxynivalenol (DON)-chemotypes and a 360 bp sequence of nivalenol (NIV)- chemotypes of Fusarium graminearum. Mycotoxin chemotypes identified by the PCR assays were confirmed by the chemical analyses of HPLC or GC/MS. Further analysis of 364 F. graminearum isolates from 12 provinces of China showed that 310 were DON-chemotypes and 54 were NIV-chemotypes. Sequence analyses revealed that DON-chemotypes display more variations than NIV-chemotypes. This PCR assay could be used to detect mycotoxin-producing Fusarium-species and may thus help to develop strategies to avoid or reduce mycotoxin contamination of cereals. Also this assay may provide useful alternatives to antibody-based mycotoxin tests.     

Identification of differentially regulated proteins in response to a compatible interaction between the pathogen Fusarium graminearum and its host, Triticum aestivum

Using proteomic analyses, a study was carried out aimed at understanding the molecular mechanism of interaction between Fusarium graminearum and Triticum aestivum. Wheat spikelets were inoculated with H2O and conidia spores of F. graminearum. Proteins were extracted from spikelets harvested at three time points: 1, 2 and 3 days post inoculation. About 1380 protein spots were displayed on 2-D gels stained with Sypro Ruby. In total, 41 proteins were detected to be differentially regulated due to F. graminearum infection, and were analyzed with LC-MS/MS for their identification. The proteins involved in the antioxidant and jasmonic acid signaling pathways, pathogenesis-related response, amino acid synthesis and nitrogen metabolism were up-regulated, while those related to photosynthesis were less abundant following F. graminearum infection. The DNA-damage inducible protein was found to be induced and glycosylated in F. graminearum-infected spikelets. Using TargetP program, seven of the identified wheat proteins were predicted to be located in the chloroplast, implying that the chloroplast is the organelle mostly affected by F. graminearum infection. Eight identified fungal proteins possess possible functions such as antioxidant and acquiring carbon from wheat through glycolysis in a compatible interaction between F. graminearum and wheat.