条锈菌与慢锈小麦品种互作的超微结构

条锈菌与慢锈小麦品种互作的超微结构研究表明,随着慢锈性的表达,条锈菌的胞间菌丝发育受抑,细胞器泡囊化解体。吸器母细胞和吸器发育受阻,最终解体,坏死。吸器的受抑,坏死主要表现在吸器体形成后期。在锈菌与寄主互作的交界面,吸器外质膜皱褶,电子致密度增高,吸器外间质加宽,并有大量电子致密度加深的物质沉积。与抗病品种相比,慢锈品种中病菌受抑,坏死程度轻,寄主细胞的过敏性坏死机率也较低。     

种衣剂17号包衣对小麦条锈菌发育影响的超微结构研究

本研究采用电镜技术研究了种衣剂17号对小麦条锈菌发育的影响。观察结果表明,该种衣剂引起病菌和寄主细胞内发生了一系列变化。病菌菌丝和吸器内脂肪粒和液泡明显增加;菌丝壁和吸器壁呈不规则加厚;菌丝分枝处无隔膜产生或隔膜畸形;有的吸器母细胞产生的畸形入侵栓,大都不能穿透寄主细胞壁,初生吸器外间质内沉积有染色较深的物质,次生吸器可产生多个不规则分枝,但不能扩张膨大;菌丝外渗的物质可能引起寄主细胞的坏死;大多数受侵寄主细胞可分泌形成较大的胼胝质,有时寄主细胞分泌的物质可将吸器体完全包围起来。上述结果表明,种衣剂17号不仅可直接作用于条锈菌,而且也可通过影响寄主而间接地影响病菌。     

种衣剂17号包衣对小麦条锈菌发育影响的超微结构研究

本研究采用电镜种衣剂１７号泽小麦条锈菌发育的影响。观察结果表明,该种衣剂引病菌和寄主细胞内发生了一系列变化。病菌菌丝和吸器内脂肪粒和液泡明显增加;菌丝壁和吸器壁呈不规则加厚;菌丝分枝处玩隔膜产生或隔膜畸形;有的吸器母细胞产生的畸形人侵栓,大都不能穿管寄主细胞壁,初生吸器外音质同内沉积有染色较深的物质,次生吸器可产生多个不规则分枝,但不能扩张膨大,菌丝外渗的物质可能引起寄主细胞的坏死;大多数受侵寄主     

梨胶锈菌性孢子和锈孢子阶段吸器的超微结构研究

本文对梨胶锈菌性子期和锈子期菌丝吸器的形成方式、吸器及其与寄主细胞界面的超微结构进行了研究。观察结果表明：梨胶锈菌性子期和锈子期寄主胞间菌丝吸器的形成方式有两种：一种是由寄主胞间菌丝直接形成吸器;另一种是由寄主胞间菌丝先形成吸器母细胞,然后由吸器母细胞形成吸器。吸器在开始形成时只是一个乳头状的侵入楔,以后逐渐形成囊状、镰刀状、指状及其它不规则形状的吸器。多数吸器分化为颈和吸器主体两部分,在颈部及部分吸器主体外有一个由类似寄主细胞壁物质形成的领圈。吸器内部的超微结构与寄主胞间菌丝基本相同,但吸器壁比胞间菌丝或吸器母细胞的壁薄。吸器鞘的厚度随着吸器伸长膨大 而逐渐增厚。     

条形柄锈菌吸器特异效应蛋白Hasp68抑制寄主免疫并与小麦组织蛋白酶B互作

作为活体营养专性寄生真菌,条形柄锈菌（小麦条锈病）在侵染过程中通过形成吸器向寄主细胞释放效应蛋白,干扰寄主的防卫反应,促进其侵染与致病。因此,条形柄锈菌效应蛋白的鉴定与功能研究对揭示其毒性机理具有重要意义。本实验室前期完成了条形柄锈菌CYR31生理小种吸器转录组分析,从中鉴定得到一个吸器特异诱导表达分泌蛋白Hasp68,利用农杆菌侵染在烟草细胞中瞬时表达该基因,能够抑制小鼠促细胞凋亡蛋白Bax诱导的细胞程序性死亡,鉴定为条形柄锈菌候选效应蛋白。Hasp68基因全长318bp,编码105_aa,N-端包含20_aa的信号肽,无保守结构域。BlastX分析表明Hasp68为条形柄锈菌特有效应蛋白,在其他真菌中无同源蛋白,且在条形柄锈菌16个菌系中呈较低的序列多态性,表明其在条形柄锈菌的进化过程中相对保守。借助荧光假单胞菌EtHAn的三型分泌系统,在小麦细胞中过表达Hasp68能够抑制由非致病细菌引起的PTI（PAMP-triggered immunity）相关胼胝质的积累;同时,也能抑制小麦与无毒条形柄锈菌互作中ETI（effector-triggered immunity）相关的活性氧爆发和过敏性坏死反应,表明效应蛋白Hasp68具有抑制寄主免疫反应的功能。利用酵母双杂交系统筛选Hasp68在小麦中的互作蛋白,发现其与组织蛋白酶B（cathepsin B）TaCTSB互作,双分子荧光技术进一步验证二者在烟草细胞中共表达存在互作,初步揭示了效应蛋白Hasp68的互作靶标。     

抗病品种中小麦条锈菌细胞的超微结构变化过程

本文就寄主抗病性表达过程中,小麦条锈菌细胞的超微结构变化进行了系统地观察研究。结果表明:胞间菌丝的细胞壁染色逐渐加深,厚度加宽,结构疏松,形成小空洞,并逐渐解体;细胞质逐渐凝聚、脂肪粒的数量增多、有黑色颗粒状沉积物积累;细胞质中小囊泡数目增多并逐渐融合成大液泡,线粒体数目增多,并逐渐肿胀和解体。次生吸器畸形,初生吸器体呈圆球形。吸器壁加厚,染色加深;在吸器的中央,细胞质逐渐分解而形成空泡;线粒体数目增多,并逐渐肿胀和解体;吸器外质膜呈皱褶状,吸器外间质加宽,其中有大量的丝状或颗粒状内含物形成;吸器形态结构的变化均早于其胞间菌丝。     

中国小麦条锈菌转主寄主小檗的鉴定

用萌发的小麦条锈菌冬孢子接种采自陕西省境内的陕西小檗、少齿小檗和长穗小檗,3种小檗均产生了性孢子器和锈孢子器。用人工接种小麦条锈菌冬孢子在陕西小檗上产生的锈孢子器接种小麦铭贤169产生了典型的条锈菌夏孢子堆症状。特异性PCR和DNA序列分析表明,人工接种产生于小檗上的锈孢子、接种锈孢子于小麦上产生的夏孢子堆与小麦条锈菌DNA的ITS区序列完全一致。更为重要的是,用采自田间受锈菌侵染的小檗叶片产生的锈孢子接种小麦铭贤169,经培养在小麦铭贤169叶片上产生了典型的条锈病症状。从而证实,在自然条件下,在中国,小檗不仅可作为小麦条锈菌的转主寄主,而且小麦条锈菌可在小檗上完成其有性繁殖过程。这一发现对进一步揭示我国小麦条锈菌高度的群体遗传多样性与毒性变异机理、完善小麦条锈病的防治策略具有十分重要的理论和实际意义。     

山田胶锈菌和亚洲胶锈菌吸器提取体系建立

利用锈菌吸器特异性结合伴刀豆球蛋白Concanavalin A（ConA）的特性,用ConA-sepharose 4b作为层析介质,对自然状态下感染山田胶锈菌Gymnosporangium yamadae的绚丽海棠叶片以及接种亚洲胶锈菌G. asiaticum后不同发病时期沙梨叶片中胶锈菌的吸器进行分离,构建了吸器提取体系。结果表明,在感病叶片产生大量花斑时提取到这两种胶锈菌的完整吸器,经光学显微镜与透射电子显微镜观察,发现这两种胶锈菌的吸器形态相似,呈菌丝状或肾形或不规则形状,吸器体与叶绿体含量接近1:1。研究中提取得到了G. yamadae吸器总RNA,为胶锈菌的吸器转录组中候选效应分子筛选以及病原与寄主互作分子机制研究奠定了重要基础。     

小麦条锈菌吸器母细胞入侵菌丝现象的进一步研究

应用电镜技术对小麦条锈菌吸器母细胞入侵自身菌丝的现象进行了研究,观察发现,在吸器母细胞与寄主细胞和菌丝细胞同时相接触的情况下,入侵栓可在与寄主细胞接触处形成,也可在与菌丝接触处形成;在菌落中心部位,吸器母细胞虽然未与寄主细胞接触,但同样可在与菌丝细胞接触处产生入侵栓;吸器母细胞在与菌丝接触处形成的人侵栓,其超微结构正常,并且可侵入到菌丝细胞壁内,但是未能穿透菌丝细胞壁。本文观察结果表明,小麦条锈菌吸器母细胞和人侵栓形成所需诱导因子可能是物理接触作用,而不涉及到化学作用,并且该病菌与寄主间的识别作用可能发生在入侵栓形成之后。     

小麦与叶锈菌互作过程中细胞程序性死亡的细胞学观察

小麦(Triticum aesetivum)品种洛夫林10和叶锈菌(Puccinia recondita f.sp tritici)小种162、165分别组成不亲和组合与亲和组合。透射电镜观察表明,在小麦与叶锈菌的不亲和组合中,接种后12h,侵染点周围叶肉细胞核变形;接种后24h,核内染色质开始凝聚,并趋于细胞核边缘,同时叶绿体膨胀;接种后48h,核内染色质凝聚加剧,叶绿体开始解体;最终在接种后72h,细胞核、叶绿体完全解体,线粒体开始退化。此外,内质网和液泡共同行使溶酶体功能,吞噬各种细胞器残体及原生质降解组分。以上结果表明:在小麦与叶锈菌不亲和组合的互作过程中,寄主细胞呈现细胞程序性死亡的典型特征。而在亲和组合中,叶肉细胞间隙中可见有大量菌丝蔓延,菌丝与寄主细胞壁接触后分化产生吸器母细胞。菌丝的存在对寄主细胞的超微结构产生一定影响。从接种后24h开始,与菌接触的细胞出现质膜下陷,叶绿体稍显膨胀;在接种后48h、72h,大部分叶绿体膨胀,而其它细胞器无明显变化。     

Ultrastructure of the host-pathogen interface in daylily leaves infected by the rust fungus Puccinia hemerocallidis

Summary. Transmission electron microscopy was used to examine details of the host–pathogen interface in daylily leaf cells infected by the rust fungus Puccinia hemerocallidis. Samples were prepared for study by high-pressure freezing followed by freeze substitution. The outstanding preservation of ultrastructural details afforded by this fixation protocol greatly facilitated the study of this host–pathogen interface. The extrahaustorial membrane that separated each dikaryotic haustorium from the cytoplasm of its host cell was especially well preserved and appeared almost completely smooth in profile. Large aggregations of tubular cytoplasmic elements were present near haustoria in infected host cells. Many of these tubular elements were found to be continuous with the extrahaustorial membrane and conspicuous electron-dense deposits present in the extrahaustorial matrix extended into these elements. The use of gold-conjugated wheat germ agglutinin for labeling of chitin revealed that these deposits were not part of the haustorial wall. Portions of many of the tubular elements associated with haustoria were conspicuously beaded in appearance. Some tubular elements were found to be continuous with flattened cisternae that in turn bore short beaded chains. Distinctive tubular-vesicular complexes previously reported only in cryofixed rust haustoria also were found in the haustoria of P. hemerocallidis. Received July 6, 2001 Accepted October 3, 2001     

Observations on the ultrastructure of the uredinial stage ofPuccinia polypogonis onPolypogon monspeliensis

The ultrastructure of the uredinial stage of the rust fungus,Puccinia polypogonis onPolypogon monspeliensis is described, using scanning and transmission electron microscopy. This study examined the urediniospores, intercellular hyphae, and haustoria of the fungus. The formation and structure of urediniospores is similar to those of otherPuccinia species. The ultrastructure of intercellular hyphae and haustoria is similar to those of other rust fungi, but with some differences. No modifications are observed in the wall of the haustorial mother cells during penetration. A collar is found only around old haustoria. In most cases, one nucleus is detected inside the haustorial body and no nucleoli are seen in the nuclei of intercellular hyphae and haustoria. The host-parasite interface, including extrahaustorial matrix and extrahaustorial membrane, is also discussed and compared with those of other rust fungi.     

Ultrastructure of intercellular hypha and haustorium of the rust fungus,Uromyces euphorbiae

The ultrastructure of intercellular hyphae and dikaryotic haustoria of Uromyces euphorbiae, and the host response to haustorial invasion was investigated. The intercellular hyphae share common characteristics with those of other uredinial stages of rust fungi. Three types of septa were recognized inside the intercellular hypha. This study showed that the extrahaustorial membrane was possibly formed before the development of the haustorium. The periodic acid-thiocharbohydrazide-silver proteinate technique showed that the haustorial mother cell wall at the penetration site, and the haustorial wall contained more carbohydrates than other fungal structures. In addition, the neckband, present around the haustorial neck, contains different material from those of the rest of the haustorial neck wall. The close associations of host organelles, such as the nucleus, chloroplasts, mitochondria, endoplasmic reticulum and microtubules, with the haustorium, is described.     

Patterns of plant subcellular responses to successful oomycete infections reveal differences in host cell reprogramming and endocytic trafficking

Adapted filamentous pathogens such as the oomycetes Hyaloperonospora arabidopsidis (Hpa) and Phytophthora infestans (Pi) project specialized hyphae, the haustoria, inside living host cells for the suppression of host defence and acquisition of nutrients. Accommodation of haustoria requires reorganization of the host cell and the biogenesis of a novel host cell membrane, the extrahaustorial membrane (EHM), which envelops the haustorium separating the host cell from the pathogen. Here, we applied live-cell imaging of fluorescent-tagged proteins labelling a variety of membrane compartments and investigated the subcellular changes associated with accommodating oomycete haustoria in Arabidopsis and N. benthamiana. Plasma membrane-resident proteins differentially localized to the EHM. Likewise, secretory vesicles and endosomal compartments surrounded Hpa and Pi haustoria revealing differences between these two oomycetes, and suggesting a role for vesicle trafficking pathways for the pathogen-controlled biogenesis of the EHM. The latter is supported by enhanced susceptibility of mutants in endosome-mediated trafficking regulators. These observations point at host subcellular defences and specialization of the EHM in a pathogen-specific manner. Defence-associated haustorial encasements, a double-layered membrane that grows around mature haustoria, were frequently observed in Hpa interactions. Intriguingly, all tested plant proteins accumulated at Hpa haustorial encasements suggesting the general recruitment of default vesicle trafficking pathways to defend pathogen access. Altogether, our results show common requirements of subcellular changes associated with oomycete biotrophy, and highlight differences between two oomycete pathogens in reprogramming host cell vesicle trafficking for haustoria accommodation. This provides a framework for further dissection of the pathogen-triggered reprogramming of host subcellular changes.     

小麦条锈菌主要结构中糖基种类的细胞化学定位研究

用8种植物凝集素探针对小麦条锈菌主要结构中的糖基种类进行了细胞化学定位。电镜观察结果表明在菌丝和吸器母细胞壁中存在有α-葡萄糖或α-甘露糖、乙酰胺基葡萄糖、α-半乳糖、α-乙酰半乳糖、岩藻糖和β-连结的糖基,而隔膜中仅含α-葡萄糖或甘露糖和乙酰胺基葡萄糖基;在吸器颈壁中分布有α-葡萄糖或α-甘露糖;尽管吸器体壁中仅含乙酰胺基葡萄糖,而在吸器外间质中存在有半乳糖,乙酰半乳糖,α-葡萄糖或甘露糖等糖基。以上结果表明不同结构所含糖基种类并非一致。     

Isolation by ConA binding of haustoria from different rust fungi and comparison of their surface qualities

Summary Rust haustoria isolated from infected leaf tissue strongly bind to ConA. This property was exploited to purify them by affinity chromatography on a ConA-Sepharose macrobead column. Haustoria were obtained with more than 90% purity and yields of up to 50%. Binding of haustoria to the column was partially inhibited by a ConA-specific sugar, methyl -D-mannopyranoside. Compared to ConA,Lens culinaris agglutinin and wheat germ agglutinin were less efficient affinity ligands. Using ConA-Sepharose, rust haustoria from a variety of sources could be isolated with equal efficiency, indicating that they have similar carbohydrate surface properties. The haustoria maintained their typical shape after the isolation procedure, which suggests a rather rigid wall structure. The morphology of haustoria was characteristic both for a given species and the nuclear condition of the rust mycelium. Electron microscopy of isolated haustoria revealed an intact haustorial wall surrounded by a fibrillar layer presumably derived from the extrahaustorial matrix. The matrix thus appears to represent a layer with gel-like properties which is rich in ConA-binding carbohydrates and connected to the haustorial wall but not to the host-derived extrahaustorial membrane.Abbreviations ConA Concanavalin A - LCA Lens culinaris agglutinin - WGA wheat germ agglutinin - FITC fluorescein isothiocyanate - DAPI 4,6-diamidinophenylindol×2 HCl     

Ultrastructural characterisation of the host–pathogen interface in white blister-infected Arabidopsis leaves

In this study transmission electron microscopy (TEM) was used to examine details of the host–pathogen interface in Arabidopsis thaliana cotyledons infected by Albugo candida, causal agent of white blister. After successful entry through stomatal pores, the pathogen developed a substomatal vesicle and subsequently produced intercellular hyphae. TEM observations revealed that coenocytic intercellular hyphae ramified and spread intercellularly throughout the host tissue forming several haustoria in host mesophyll cells. Intracellular haustoria were spherical and 4.5 μm in diameter. Each haustorium was connected to intercellular hyphae by a narrow, slender haustorium neck. The cytoplasm of the haustorium included the organelles characteristic of the pathogen. No obvious response was observed in host cells following formation of haustoria. Most of the mesophyll cells contained normal haustoria and the host cytoplasm displayed a high degree of structural integrity. Absence of host cell wall alteration and cell death in penetrated host cells suggest that the pathogen exerts considerable control over basic cellular processes and in this respect, response to this biotrophic Oomycete differs considerably from responses to other pathogens such as necrotrophs. Modification of the host plasma membrane (PM) along the cell wall and around the haustoria, was detected by applying the periodic acid-chromic acid-phosphotungstic acid (PACP) staining technique. After staining with PACP, the host PM was found to be intensely electron dense where it was adjacent to the host cell wall and the distal region of the haustorial neck. By contrast, the extrahaustorial membrane, where the host PM surrounded the haustorium, was consistently very lightly stained.     

Electron microscope autoradiography of14C photosynthate distribution at the haustorium-host interface in powdery mildew ofPisum sativum

Summary Haustorial complexes were isolated from leaves ofPisum sativum infected withErysiphe pisi and exposed to¹⁴CO₂ for 2 hours. The constituents of the isolated fraction were quantified and ultrastructurally described and the distribution of¹⁴C studied by electron microscope autoradiography and statistical treatment. Most (86%) of the isotope in the fraction was associated with haustorial complexes. Three classes of haustorial complexes were distinguished by degree of labelling and ultrastructure. Most of the haustorial complexes were termed healthy (i.e., they showed a normal ultrastructure) and were heavily labelled; necrotic complexes were unlabelled; and a class with intermediate labelling, modified extrahaustorial membrane and usually a normal haustorial cytoplasm was termed pre-necrotic. In healthy haustorial complexes the haustorial lobes and extrahaustorial membrane showed the highest grain densities and the body and extrahaustorial matrix were also significantly labelled. Comparison of the results suggest that ultrastructural modifications leading to necrosis were caused by dehydration which in turn determined reduction in photosynthate transfer. Other factors influencing transport into haustoria and the status of the extrahaustorial matrix are also discussed.U.V. fluorescence microscopy with acetamido-isothiocyanatostilbene salt was used to distinguish healthy and pre-necrotic haustorial complexes. It is recommended as a simple technique to monitor the functional quality of isolated haustorial complexes.     

不同抗病性小麦品种上白粉菌吸器发育超微结构研究

利用电镜技术对不同抗病性小麦品种上白粉菌吸器发育及相应寄主细胞变化的超微结构进行了研究,并对吸器的Ca2+－ATP酶活性及几丁质的分布进行了细胞化学定位分析。结果表明,小麦白粉菌（Blumeriagraminisf．sp.tritici）成熟吸器在内部结构上类似一个代谢活跃的菌丝细胞,有大量的线粒体和多聚核糖体;Ca2+－ATP酶主要被定位在寄主质膜及病菌核膜上;随吸器的不断发育,吸器外膜厚度增加,同时Ca2+-ATP酶活性增强。几丁质均匀地分布在吸器壁上,其含量随吸器的成熟而增加。在不同抗病性小麦品种上,吸器细胞核最先退化,然后是线粒体的液泡化和多聚核糖体的解聚。中抗寄主细胞内的吸器普遍退化较早,相当一部分在吸器中心体阶段已解体。此外,高感寄主表皮细胞与叶肉细胞之间有发达的胞间连丝;而且在吸器形成后,能比中抗寄主细胞更快地增殖和聚积大量与能量代谢、物质合成及分泌活动有关的细胞器。