稻瘟病菌微波诱发突变体的分析

通过诱变获得突变体是研究稻瘟病菌变异机制的基础。本文用微波炉对稻瘟病菌分生孢子进行低强度短时间处理获得了一批形态发育和致病性突变体,并对它们进行了分析。突变体1-40-271菌落呈白色,产孢与萌发均正常,但萌发后即便在人工疏水表面上也不能形成附着胞,且丧失了致病性;突变体2-20-6菌落呈黄色,孢子萌发率为1％,萌发的孢子其附着胞形成率仅为0．01％,致病性减弱;突变体2-30-3菌落呈黄色,形成的附着胞大部分不正常,但致病性正常。Rep-PCR指纹分析发现,突变体2-20-6和2-30-3比其相应野生型少1条带,而突变体1-40-271与其野生型比较没有变化,说明微波可能造成稻瘟病菌基因组DNA缺失或点突变而发生变异。继代分析表明微波处理获得的稻瘟病菌形态和致病性突变体是稳定的。     

Ca^2＋信号途径参与稻瘟病菌分生孢子萌发及附着胞形成的调控

为了确定Ca^2 信号途径是否参与、在哪一时期参与稻瘟病菌分生孢子萌发及附着胞形成过程的调控,用四种可从不同位点阻断 Ca^2 信号途径的抑制剂分别处理分生孢子,观察抑制剂对孢子萌发及附着胞形成过程的抑制作用。结果表明：Ca^2 螯合剂 EGTA、Ca^2 通道抑制剂 Verapamil、抑制磷脂酶 C 活性的抑制剂 U-73122、影响钙调素与钙调素依赖蛋白激酶作用位点的抑制剂 KN-93,随着浓度的增加,对孢子萌发和附着胞形成过程的抑制作用明显增强;同一浓度下,抑制剂对附着胞形成过程的抑制作用大于孢子萌发过程;抑制剂影响孢子萌发和附着胞形成过程在萌发早期(1-4h)最有效;在完全被抑制、不能萌发的孢子内出现了许多颗粒状囊泡;抑制剂可使附着胞形态明显变小甚至不能形成。以上结果表明钙信号途径参与了稻瘟病菌孢子萌发及疏水条件下附着胞形成过程的调控。     

稻瘟病菌T-DNA插入方法优化及其突变体分析

优化了农杆菌介导转化稻瘟病菌获得T-DNA插入突变的条件,包括选择转化子的潮霉素B用量,抑制农杆菌的抗生素头孢噻肟钠和羧苄青霉素的配比,不同转化阶段培养基的选择等。转化1×10⁶个孢子平均可获得约500个左右的转化子,PCR和TAILPCR检测表明约85%转化子中含T-DNA插入。对1520个突变体进行形态变异观察,发现菌落颜色突变的有15个;随机取58个突变体进行比较,发现产孢量减少的4个,孢子萌发率降低的8个,附着胞形成率降低的9个;还获得对水稻品种C101LAC（Pi-1）和751127（Pi-9）致病的突变体,为进一步克隆相应的无毒基因奠定了基础。     

Ca2+信号途径参与稻瘟病菌分生孢子萌发及附着胞形成的调控

为了确定Ca2+信号途径是否参与、在哪一时期参与稻瘟病菌分生孢子萌发及附着胞形成过程的调控,用四种可从不同位点阻断Ca2+信号途径的抑制剂分别处理分生孢子,观察抑制剂对孢子萌发及附着胞形成过程的抑制作用.结果表明Ca2+螯合剂EGTA、Ca2+通道抑制剂Verapamil、抑制磷脂酶C活性的抑制剂U-73122、影响钙调素与钙调素依赖蛋白激酶作用位点的抑制剂KN-93,随着浓度的增加,对孢子萌发和附着胞形成过程的抑制作用明显增强;同一浓度下,抑制剂对附着胞形成过程的抑制作用大于孢子萌发过程;抑制剂影响孢子萌发和附着胞形成过程在萌发早期(1～4h)最有效;在完全被抑制、不能萌发的孢子内出现了许多颗粒状囊泡;抑制剂可使附着胞形态明显变小甚至不能形成.以上结果表明钙信号途径参与了稻瘟病菌孢子萌发及疏水条件下附着胞形成过程的调控.     

稻瘟菌MgORP1基因敲除突变株的构建及其表型分析

[目的]了解稻瘟病菌中氧固醇结合蛋白(oxysterol-binding proteins related proteins,缩写为ORPs)家族成员组成情况,构建MgORP1基因缺失突变株和互补株,对MgORP1基因功能进行初步研究.[方法]以ORPs家族的典型结构域"ORD"为靶标,对稻瘟病菌基因组数据库进行BlastP搜索.通过同源重组的策略,构建MgORP1基因缺失突变体,再通过重新导入该基因全长片段获得互补株.然后对野生型、突变体和互补株进行菌落、分生孢子和附着胞形态或形成情况、以及致病力进行比较分析.[结果]稻瘟病菌基因组中含有6个可能的ORPs族蛋白,其中MgORP1基因的破坏降低了稻瘟菌在完全培养基上的菌落生长速率和产孢量.但对菌丝、分生孢子和附着胞的形态,以及在水稻上的致病力没有明显影响.[结论]MgORP1基因可能与稻瘟病菌的菌落生长和产孢量相关.     

Ca2+信号途径参与稻瘟病菌分生孢子萌发及附着胞形成的调控

为了确定Ca²⁺信号途径是否参与、在哪一时期参与稻瘟病菌分生孢子萌发及附着胞形成过程的调控,用四种可从不同位点阻断Ca²⁺信号途径的抑制剂分别处理分生孢子,观察抑制剂对孢子萌发及附着胞形成过程的抑制作用。结果表明:Ca²⁺螯合剂EGTA、Ca²⁺通道抑制剂Verapamil、抑制磷脂酶C活性的抑制剂U-73122、影响钙调素与钙调素依赖蛋白激酶作用位点的抑制剂KN-93,随着浓度的增加,对孢子萌发和附着胞形成过程的抑制作用明显增强;同一浓度下,抑制剂对附着胞形成过程的抑制作用大于孢子萌发过程;抑制剂影响孢子萌发和附着胞形成过程在萌发早期(1~4h)最有效;在完全被抑制、不能萌发的孢子内出现了许多颗粒状囊泡;抑制剂可使附着胞形态明显变小甚至不能形成。以上结果表明钙信号途径参与了稻瘟病菌孢子萌发及疏水条件下附着胞形成过程的调控。     

过氧化物酶体增殖剂对稻瘟病菌生长发育及致病性的影响

【目的】探索过氧化物酶体增殖剂(Peroxisome proliferators,PPs)对稻瘟病菌生长发育及致病性的影响。【方法】在6种不同的PPs诱导下,观察比较稻瘟病菌过氧化物酶体数量及相关基因表达、生长速率、孢子萌发、附着胞形成与致病性的差异。【结果】在不同的PPs诱导下,稻瘟病菌过氧化物酶体数量均呈现明显的增加,同时过氧化物酶体形成相关基因PEX8、PEX11、PEX14的表达量升高;PPs影响病菌菌丝生长、分生孢子萌发及附着孢形成,并导致致病性的减弱。其中,2,4-D与阿司匹林的抑制效果最为显著。同时,2,4-D与ASA对稻瘟病菌过氧化物酶体形成突变体Δpex5和Δpex7的生长抑制效果与野生菌株相比明显增加。【结论】首次将PPs类化合物用于模式丝状病原真菌稻瘟病菌的研究。研究发现6种PPs均能够引起过氧化物酶体的增殖,并可抑制稻瘟病菌生长发育,降低致病性。     

CfAtg8在调控果生刺盘孢正负菌株分化中的功能

由果生刺盘孢Colletotrichum fructicola引起的炭疽叶枯病严重危害苹果果实和叶片。刺盘孢属真菌可以产生具有形态和遗传差异的正型(+)和负型(-)菌株,但其分化的分子机制目前尚不清楚。本研究通过同源重组对CfAtg8功能进行分析,结果显示,CfAtg8显著影响果生刺盘孢正菌株(1104-7)菌落颜色和气生菌丝茂密程度,但不影响负菌株(1104-6);正菌株突变体不产生子囊壳,负菌株突变体子囊壳变小、数量增多;正菌株突变体与负菌株野生型1104-6杂交不形成交配线,负菌株突变体与正菌株野生型1104-7杂交形成正常交配线;此外,CfAtg8还影响正、负菌株分生孢子萌发、附着胞形成及致病性等。这些结果表明自噬基因CfAtg8是影响果生刺盘孢正负菌株分化、形态发育和致病的重要基因。     

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。     

胶孢炭疽菌C2H2型转录因子CgGcp1的生物学功能

【背景】胶孢炭疽菌(Colletotrichum gloeosporioides)可以寄生于多种植物,侵染方式多样,能够引起严重的农业危害。在胶孢炭疽菌中,CgGcp1是一个C2H2型的转录因子,关于其生物学功能的研究未见报道。【目的】明确CgGcp1的生物学功能,为深入解析该病菌的致病机制奠定一定的理论依据。【方法】构建CgGCP1基因的敲除载体,利用同源重组得到敲除突变体。通过表型分析,包括营养生长、胁迫响应、孢子产生、附着胞形成及致病性分析等,明确该基因的生物学功能。【结果】CgGCP1基因敲除突变体生长速率较野生型减慢,对SDS、刚果红、NaCl和甘油更加敏感,孢子产量显著降低,附着胞的形成率降低且侵入能力减弱,在橡胶叶片上的致病力明显下降。【结论】CgGcp1参与调控胶孢炭疽菌营养生长、细胞壁完整性、分生孢子产生、附着胞形成与侵入和致病性。     

棉花枯萎病菌突变体库的构建及分析

[背景]棉花枯萎病逐渐成为威胁新疆海岛棉产业发展的主要病害,但关于棉花枯萎病菌的致病力、产孢量、生长速度及颜色变化等相关功能基因目前还不是十分明确.[目的]通过构建绿色荧光蛋白(green fluorescent protein,GFP)标记棉花枯萎病菌突变体库,筛选出由于T-DNA的随机插入而导致性状发生变异的突变体...     

Characterization of a conditionally transformation-deficient mutant of Haemophilus influenzae that carries a mutation in the rec-1 gene region.

A mutant of Haemophilus influenzae, designated HM5, carrying a mutation in the rec-1 gene region, is described. This mutant transformed approximately 100-fold less well than does the wild type, but approximately 100-fold better than rec1 mutants. The mutant was less sensitive to UV irradiation and less "reckless" than rec1 mutants. In contrast to rec1 lysogens, HP1c1 lysogens of the mutant were inducible, and during transformation, recombinant-type activity was formed to the same extent as in the wild type. Although the integration of donor DNA was complete, the integrated DNA was not replicated at 36 degrees C. Both the inhibition of replication of the donor-recipient DNA complex and the transformation deficiency could be suppressed when, after DNA entry, the cells were incubated under suboptimal conditions. The loss of colony formation after UV irradiation was suppressible by the same conditions.     

G protein signaling mediates developmental processes and pathogenesis of Alternaria alternata

A G protein alpha subunit gene (AGA1) has been cloned and characterized from a toxigenic and necrotrophic Alternaria alternata pathogen. Targeted disruption of AGA1 in the apple pathotype of A. alternata gave rise to mutants that differed in colony and conidial morphology as well as sporulation. The conidia of wild type and deltaAGA1 mutants showed equal germination on cellulose membranes. However, wild-type germ tubes formed readily from different points around the conidia, grew randomly, and were often branched, whereas those of the mutants formed only at one or both ends of the conidia and tended to grow in straight paths. Targeted disruption of AGA1 also resulted in reduction of pathogenicity on apple leaves, although the mutant produced host-specific AM-toxin, a fungal secondary metabolite associated with pathogenicity of the pathogen, at levels similar to the wild-type strain. Measurement of the intracellular cAMP levels of the mutant revealed that it was consistently higher than that of the wild type, indicating that AGA1 negatively regulates cAMP levels similar to mammalian Galphai systems. These results indicate that the signal transduction pathway represented by AGA1 appears to be involved in developmental pathways leading to sporulation and pathogenesis of A. alternata.     

落叶型大丽轮枝菌T-DNA插入突变体库的构建

采用ATMT技术建立大丽轮枝菌落叶型菌株XJ2008菌株的T-DNA插入突变体文库,共获得6 043个突变体。从中随机挑选104个突变体,以野生型XJ2008菌株为参照,评价其致病性、菌落生长速率、分生孢子及微菌核的产生能力等。结果表明,有12.5%的突变体丧失产孢能力,4.8%的突变体的生长速率显著减慢,8.7%的突变体的生长速率显著加快,12.5%的突变体丧失产生微菌核的能力,47.1%的突变体的致病性显著低于野生型菌株XJ2008,且突变体2-736、2-740、2-745的病情指数分别约为野生型菌株XJ2008的0.184、0.168和0.197倍。该突变体库突变体遗传稳定性好,性状多样性丰富。     

The mitogen-activated protein kinase gene MAF1 is essential for the early differentiation phase of appressorium formation in Colletotrichum lagenarium

Colletotrichum lagenarium, the causal agent of cucumber anthracnose, invades host plants by forming a specialized infection structure called an appressorium. In this fungus, the mitogen-activated protein kinase (MAPK) gene CMK1 is involved in several steps of the infection process, including appressorium formation. In this study, the goal was to investigate roles of other MAPKs in C. lagenarium. The MAPK gene MAF1, related to Saccharomyces cerevisiae MPK1 and Magnaporthe grisea MPS1, was isolated and functionally characterized. The maf1 gene replacement mutants grew normally, but there was a significant reduction in conidiation and fungal pathogenicity. The M. grisea mps1 mutant forms appressoria, but conidia of the C. lagenarium maf1 mutants produced elongated germ tubes without appressoria on both host plant and glass, on which the wild type forms appressoria, suggesting that MAF1 has an essential role in appressorium formation on inductive surfaces. On a nutrient agar, wild-type conidia produced elongated germ tubes without appressoria. The morphological phenotype of the wild type on the nutrient agar was similar to that of the maf1 mutants on inductive surfaces, suggesting repression of the MAF1-mediated appressorium differentiation on the nutrient agar. The cmk1 mutants failed to form normal appressoria but produced swollen, appressorium-like structures on inductive surfaces, which is morphologically different from the maf1 mutants. These findings suggest that MAF1 is required for the early differentiation phase of appressorium formation, whereas CMK1 is involved in the maturation of appressoria.     

玉米弯孢叶斑病菌ATMT突变株构建及致病力分析

利用农杆菌介导的基因转化(Agrobacterium-mediated transformation,ATMT)技术,转化玉米弯孢叶斑病菌 (Curvularia lunata),共获得转化子1 454个。对其中菌落形态、生长速率等性状有显著变化的8个突变株进行分析。通过离体叶片接种进行筛选,发现4个突变株致病性降低,2个突变株致病性增强。通过测定生长速率、产孢量及细胞壁降解酶活性发现,其中致病性减弱的突变株,其产孢量均有所下降甚至不产孢,突变株的PG酶活性普遍增强,但Cx酶活性没有明显变化,而2株强致病性突变株的Cx酶活性明显增强。     

Conditional Mutants of Meiosis in Yeast

Three temperature-sensitive mutants, spo1-1, spo2-1, and spo3-1, were characterized with respect to their behavior in sporulation medium at a restrictive temperature. The time of expression of the functions defective in the mutants was determined by temperature-shift experiments during the sporulation process. In addition, each mutant was examined for the following: (i) its ability to undergo the nuclear divisions of meiosis; (ii) deoxyribonucleic acid (DNA), ribonucleic acid (RNA), and protein synthesis; (iii) protein turnover; and (iv) colony-forming ability after exposure to sporulation medium. Mutant spo1-1 is defective in a function which confers a temperature-sensitive period which extends over 32% of the sporulation cycle. The temperature-sensitive period of mutant spo2-1 occupies 34% of the cycle, whereas the temperature-sensitive period of mutant spo3-1 extends over 2% of the sporulation cycle. Cytological evidence indicates that all three mutants initiate but do not complete the meiotic nuclear divisions. The DNA content of sporulation cultures of mutants spo1-1 and spo3-1 did not increase to the wild-type level; DNA synthesis in spo2-1 was normal. All three strains exhibit a loss of colony-forming ability during incubation in sporulation medium at the restrictive temperature. RNA and protein synthesis and protein turnover occur in the mutants.     

Role of LYS271 and LYS279 residues in the interaction of cytochrome P4501A1 with NADPH-cytochrome P450 reductase

It has been proposed that negatively charged amino acids on the surface of reductase and positively charged amino acids on the surface of P450 mediate the binding of both proteins through electrostatic interactions. In this study, we used a site-directed mutagenesis approach to determine a role for two lysine residues (Lys271 and Lys279) of cytochrome P4501A1 in the interaction of P4501A1 with reductase. We prepared two mutants P4501A1Ile271 and P4501A1Ile279 with a mutation of the lysine at positions 271 and 279, respectively. We observed a strong inhibition (>80%) of the 7-ethoxycoumarin and ethoxyresorufin deethylation activity in the reductase-supported system for both mutants. In the cumene hydroperoxide-supported system, P4501A1Ile279 exhibited wild-type activity, but the P4501A1Ile271 mutant activity remained low. The CD spectrum and substrate-binding assay indicated that the secondary structure of P4501A1Ile271 is perturbed. To evaluate further the involvement of these P4501A1 lysine residues in reductase binding, we measured the KM of reductase for wild type and mutants. Both wild type and P4501A1Ile271 reached saturation in the range of reductase concentrations tested with KM values 5.1 and 11.2 pM, respectively. The calculated KM value for P4501A1Ile279 increased 9-fold, 44.4 pM, suggesting that the mutation affected binding of reductase to P4501A1. Stopped-flow spectroscopy was employed to evaluate the effect of mutations on electron transfer from reductase to heme iron. Both wild type and P450Ile279 showed biphasic kinetics with a approximately 40% participation of the fast step in the total activity. On the other hand, only single-phase kinetics for iron reduction was observed for P450Ile271, suggesting that the low activity of this mutant can be attributed not only to major structural changes but also to a disturbance in the electron transport.     

A novel gene MGA1 is required for appressorium formation in Magnaporthe grisea

Insertional mutagenesis is an effective way to study the infection mechanism of fungal pathogens. In an attempt to identify the genes involved in appressorium formation from Magnaporthe grisea, we carried out Agrobacterium tumefaciens mediated transformation (ATMT) of the fungus. Analysis of the region flanking the T-DNA integration site in one of the appressorium mutants showed insertion in a gene coding a 78 amino acid protein (MGA1), showing no significant homology to any of the known proteins. The mutant mga1 caused neither foliar nor root infection. Complementation of the mutated gene with the full length wild type gene restored appressorium formation as well as rice infection demonstrating the involvement of this gene in pathogenicity of M. grisea. In an indirect immunolocalisation assay, the MGA1 expression was seen predominantly in germ tube and appressoria. The mutant was impaired in glycogen and lipid mobilization required for appressorium formation. The glycerol content in the mycelia of the mutant under hyperosmotic stress conditions was less as compared to wild type and was thus unable to tolerate the hyperosmotic stress induced by sorbitol. We hypothesize that MGA1 plays a crucial role in signal transduction leading to the metabolism of glycogen and lipids, which is a part of appressorium differentiation process.     

The α-1,6-mannosyltransferase VdOCH1 plays a major role in microsclerotium formation and virulence in the soil-borne pathogen Verticillium dahliae

Sunflower yellow wilt is a widespread and destructive disease caused by the soil-borne pathogen Verticillium dahliae (V. dahliae). To better understand the pathogenesis mechanism of V. dahliae in sunflower, T-DNA insertion library was generated via Agrobacterium tumefaciens mediated transformation system (ATMT). Eight hundred positive transformants were obtained. Transformants varied in colony morphology, growth rate, conidia production and pathogenicity in sunflower compared to the wild type strain. A mutant, named VdGn3-L2, was chosen for further analysis based on its deprivation on microsclerotia formation. The flanking sequence of T-DNA insertion site of VdGn3-L2 was identified via hiTAIL-PCR, and the interrupted gene encoded an initiation-specific α-1, 6-mannosyltransferase, named as VdOCH1. The deletion mutant ΔVdOCH1 was impaired in certain characteristics such as fungal growth, conidia production, and microsclerotia formation. Also, ΔVdOCH1 mutants were more sensitive to the cell wall perturbing reagents, such as SDS and Congo red, lost their penetration ability through cellophane membrane, and exhibited dramatically decreased pathogenicity to sunflower. The impaired phenotypes could be restored to the wild type level by complementation of the deletion mutant with full-length VdOCH1 gene. In conclusion, VdOCH1, encoded α-1,6-mannosyltransferase, manipulating the biological characteristics, microsclerotia formation and pathogenic ability of V. dahliae in sunflower.