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1.
本文报道了通过微分干涉衬显微镜、荧光显微镜及扫描电镜和透射电镜所观察到的菜豆锈菌的侵入和扩展过程。菜豆锈菌夏孢子萌发多产生1个芽管,偶尔也产生双芽管。芽管以气孔侵入为主,也可从表皮直接侵入。侵入前形成或不形成明显的附着胞。气孔侵入的芽管首先在气孔腔内形成气孔下囊,再进一步分化出圆形的膨大体,由膨大体产生1~2支初生菌丝。初生菌丝与叶肉细胞壁接触后分化出吸器母细胞,吸器母细胞进入叶肉细胞内部形成吸器。初生侵染菌丝在产生吸器母细胞的部位的后部产生分枝,形成次生侵染菌丝在叶肉细胞间蔓延。 相似文献
2.
小麦与条锈病菌不亲和互作的超微结构 总被引:9,自引:1,他引:9
采用条锈菌同一小种的野生型菌系和弱毒突变菌系,分别接种同一小麦品种的方法,研究了不亲和互作的超微结构特征。在不亲和互作中,条锈菌的胞间菌丝、吸器母细胞和吸器明显受抑。吸器可以在发育早期受抑坏死,也可迟滞至吸器体形成之后坏死。吸器外质膜严重皱褶,并出现孔洞,吸器外间质加宽,沉积大量电子致密物质。侵染位点的小麦叶肉细胞表现与过敏性坏死反应相关联的一系列变化。细胞壁内侧还出现乳突状或颗粒状沉积物等防御结构或物质。 相似文献
3.
小麦新抗源一粒葡抗条锈病的组织学和超微结构研究 总被引:1,自引:0,他引:1
采用荧光显微镜、微分干涉显微镜和电子显微镜技术,系统研究了小麦新抗源一粒葡抗小麦条锈病的组织学和超微结构特征。结果表明:相对于感病品种铭贤169,一粒葡对条锈菌的侵染,在组织学和超微结构上均表现出明显的抗性特征。在组织学水平,表现为菌丝生长受抑,菌落发育延迟或败育,吸器母细胞和吸器数目明显减少;同时,侵染点的寄主细胞表现出不同程度的过敏性坏死症状。电镜观察发现,在一粒葡和感病品种中,条锈菌均可由芽管顶端直接进入或通过形成附着胞进入小麦气孔。其后,在一粒葡上,病菌胞间菌丝、吸器母细胞、吸器在细胞和亚细胞水平均发生了一系列异常变化,表现为原生质染色逐渐加深,液泡增多变大,逐渐消解原生质;胞间菌丝、吸器母细胞细胞壁不规则增厚;胞间菌丝线粒体肿胀,数目增多,逐渐解体;吸器母细胞细胞质逐渐空泡化后丧失其生理功能;吸器外质膜皱褶;吸器外间质加宽并有丝状或颗粒状物质形成,吸器体壁逐渐消解出现孔洞,吸器体最终畸形坏死。同时,寄主细胞产生一系列显著的结构防卫反应:形成胞壁沉积物、乳突、吸器鞘等结构,以及发生坏死,阻碍并抑制病菌的发育及扩展。 相似文献
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大豆疫霉菌对大豆下胚轴侵染过程的细胞学研究 总被引:3,自引:0,他引:3
接种后1.5~24h,用光镜和电镜研究了2个大豆品种与大豆疫霉菌Ps411的亲和性和非亲和性互作。观察结果表明,大豆疫霉菌对大豆下胚轴的侵染过程可分为侵入前、侵入、皮层组织中的扩展和进入维管束组织4个连续阶段。大豆下胚轴接种后在25℃保湿培养,1.5h后游动孢子即形成休止孢并萌发产生附着孢,3h后侵入表皮细胞,6h后进入皮层组织,24h后进入维管束组织。病原菌主要以侵染菌丝直接侵入表皮,表皮细胞间隙是主要侵入部位。皮层细胞是病原菌定殖和发展的主要场所,胞间菌丝侵入皮层细胞并形成吸器。在菌丝与寄主细胞接触部位的寄主细胞壁与质膜之间常有胞壁沉积物的形成。在抗病品种上病菌的侵染事件与感病品种基本一致,但不能形成正常的吸器,胞壁沉积物明显多于感病品种,菌丝在寄主组织内的扩展明显受到抑制。利用β-1,3-葡聚糖免疫金标记单克隆抗体进行的免疫细胞化学的研究表明,胞壁沉积物内含有大量的β-1,3-葡聚糖,在大豆疫霉菌菌丝壁中也存在β-1,3-葡聚糖。以上结果表明,病原菌的侵染可诱导抗病寄主细胞内β-1,3-葡聚糖迅速的合成与积累、并形成胞壁沉积物,以抵御病菌的侵染与扩展。 相似文献
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寡聚糖诱导黄瓜对白粉病抗病反应的超微结构研究 总被引:13,自引:0,他引:13
中科6号(2%氨基寡糖素)处理黄瓜植株叶片,5 d后接种白粉菌Sphaerotheca fuliginea(Schlecht.) Poll.,可诱导黄瓜Cucumis sativus产生对白粉病的抗病性,寄主细胞对病原菌的侵入产生了防卫反应结构和物质以及过敏性坏死反应。表现为寄主细胞壁加厚,染色加深,寄主细胞壁下产生多层次结构的乳突,在寄主细胞壁与质膜之间有黑色物质沉积;吸器外质膜皱褶,染色加深,吸器外基质中出现染色加深的颗粒状电子沉积物;寄主细胞质紊乱,细胞器解体,整个寄主细胞解体、坏死。 相似文献
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多堆柄锈菌侵染玉米的细胞学及超微结构特征 总被引:2,自引:1,他引:1
为明确玉米对多堆柄锈菌Puccinia polysora侵染后病理反应的细胞学特征,利用扫描和透射电镜技术分析了玉米自交系与多堆柄锈菌互作中二者的细胞变化过程。多堆柄锈菌对玉米的侵染主要以直接穿透叶片表皮侵入为主,少量可从气孔和细胞间隙侵入。接种后,病菌夏孢子在感病自交系叶片上快速并大量萌发,在叶表生长蔓延并侵入表皮组织细胞,7 d后形成夏孢子堆;在抗病自交系上,病菌萌发、菌丝生长均受到明显抑制,少量入侵的病菌也由于寄主细胞死亡而导致菌丝和夏孢子干瘪死亡。侵染早期在感病寄主细胞间隙出现菌丝并穿透细胞壁,在胞内产生分枝菌丝,此时寄主细胞结构正常;随着菌丝进一步扩展,叶绿体等结构发生紊乱,被侵染细胞逐渐死亡。在抗病自交系上,接菌24 h后寄主即出现过敏性坏死反应,侵入位点与周围细胞快速坏死,抑制菌丝生长蔓延;叶绿体中清晰可见深色颗粒状物质;72 h后细胞壁外侧产生大量致密的深色结晶体,应为与抗病反应相关的酚类物质。表明抗多堆柄锈菌的玉米材料可能存在2种抗病途径,即寄主与病菌互作中由分子识别引起的免疫反应和病菌侵入后的系统防卫反应。 相似文献
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青杨叶锈病菌(Melampsora larici-populina Kleb.)侵染过程的超微结构研究 总被引:3,自引:0,他引:3
采用电子显微镜技术对青杨叶锈病菌(Melampsora larici-populina Kleb.)的侵染过程进行了研究。发现该菌夏孢子萌发产生1~3个芽管,且具较多的树杈状分枝。芽管由气孔侵入,侵入前不形成明显的附着胞或仅个别芽管形成附着胞。芽管侵入气孔后在气孔腔内形成气孔下囊,再分化出圆形的膨大体而产生1~2支初生菌丝。初生菌丝在寄主细胞间扩展,与叶肉细胞壁接触后分化出吸器母细胞,吸器母细胞中的细胞器与胞间菌丝相同,双核。吸器母细胞产生侵入钉侵入叶肉细胞内部形成吸器,成熟吸器由细长具颈环的管状颈部和膨大的吸器体组成,此时胞间菌丝在吸器母细胞处分化出次生菌丝,在叶肉细胞间扩展形成次生菌落,产生孢子堆。病菌在寄主细胞间隙或沿寄主细胞壁延伸时,寄主细胞仍保持正常状态。 相似文献
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小麦抗白粉病菌侵染乳突反应的超微结构研究 总被引:1,自引:0,他引:1
本文利用透射电镜对小麦白粉病菌与不同抗性寄主相互作用中乳交反应的超微结构进行了系统研究。结果表明:在超微结构上乳突反应是所有侵染位点的共有特征;大量线粒体、多聚核糖体、高尔基体及各种小囊泡参与了小麦乳突的形成;进入乳突沉积区的小囊泡首先形成一个个结构致密的小颗粒,然后堆积起来形成乳突的内部主体和核心,其外围是细胞器解体后沉积的一层染色淡而均匀的无定形物质;乳突沉积开始的早晚、沉积速度及持续时间决定着乳突最终的形态结构特征及其抗性强弱;乳突抗性取决于乳突沉积的早晚与速度,而不是最终沉积量即乳突的大小。乳突抗性强的材料如KhaplixCc8总是在入侵栓进入前已形成较完整的半圆形乳突。而高感寄主如高加索,绝大部分乳突物质是在病菌入侵栓进入后沉积的,所形成的多是沿吸器颈部周围沉积的筒状元抗性乳突。病菌侵染点附近寄主细胞壁上过氧化物酶活性的增强是所有寄主的一种普遍反应,且无明显的抗侵入作用。 相似文献
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利用透射电镜技术研究了柿树炭疽菌侵染柿树叶柄的超微结构。结果表明:病原菌侵入寄主细胞后,产生细胞内的初生菌丝,其表面沉积凹凸不平的电子不透明物质。一层界面基质(interfacial matrix)把表初生菌丝细胞壁和凹陷的寄主原生质膜分开。随着初生菌丝定殖下一个细胞,原先细胞中的细胞膜消失,形成许多泡囊,随后叶绿体消失,内质网和高尔基体也逐渐降解,最后细胞内物质全部被降解成电子不透明的颗粒,降解的物质沿着初生菌丝和细胞壁表面沉积。初生菌丝穿透细胞壁的过程中,菌丝顶端接触细胞壁后膨大,并在中部产生一个隔膜,然后顶端细胞产生一个较细的穿透菌丝,穿透寄主细胞壁。穿透菌丝在寄主细胞壁中的狭窄处产生一个隔膜,一旦穿透寄主细胞壁后,迅速膨大。次生菌丝在细胞间和细胞内扩展,通过菌丝体对细胞壁施加的机械压力引起寄主细胞壁破裂,或同初生菌丝一起使细胞壁解体。侵染90 h后,形成垫形分生孢子盘。在分生孢子盘周围的表皮细胞中,次生菌丝不断形成子座组织,使原来的子座扩大,子座不断分化形成产梗细胞,产梗细胞产生分生孢子梗,分生孢子梗生长和发育对角质层和表皮细胞壁组织折叠处施加机械压力,使角质层和表皮细胞壁组织进一步折叠,分生孢子盘也相应扩大。 相似文献
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小麦叶锈菌在感病寄主上发育的组织病理学和超微结构研究 总被引:14,自引:0,他引:14
应用荧光显微技术、微分干涉技术和生物电镜技术,系统地研究了小麦叶锈菌在感病寄主上的发育过程及其超微结构特征。小麦叶锈菌在感病品种上的发育过程可分为几个明显的阶段,即孢子的萌发、附着胞的形成、气孔下囊的分化、初生菌丝和次生菌丝的形成和生长、吸器母细胞和吸器的形成、夏孢子床和夏孢子堆的产生以及夏孢子的形成。小麦叶锈菌的胞间菌丝呈丝状,生长和分枝通常沿寄主细胞壁进行。胞间菌丝与寄主细胞的接触诱导了吸器母细胞的分化,吸器母细胞在与寄主细胞壁的接触部位发育形成入侵栓,穿透寄主细胞壁后于细胞内形成吸器。胞间菌丝和吸器母细胞均含有双核,而成熟吸器则含有单核。经常规染色后,胞间菌丝和吸器母细胞的壁与隔膜均可分辨出由多层构成。 相似文献
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The development of uredospore-derived infection structures of Puccinia graminis f.sp. tritici in wheat, barley, sorghum and maize was examined by scanning electron microscopy (SEM). Germ tubes grew over the leaf surface until a stoma was located. An appressorium formed over the stoma and the leaf was penetrated by an infection peg. Within the substomatal chamber of all species the infection peg developed a substomatal vesicle by 6 h post-inoculation (hpi). from which a primary infection hypha developed parallel to the long axis of the leaf. In wheat, barley and maize, when a primary infection hypha abutted onto a host cell, a septum was laid down between the tip of the hypha and the substomatal vesicle, delimiting a haustorial mother cell by 12 hpi; haustorial mother cells did not form in sorghum. Secondary infection hyphae arose on the substomatal vesicle side of the septum; infection did not progress further in maize, but in wheat and barley secondary infection hyphae branched, and proliferated intercellularly forming the fungal thallus. A haustorial mother cell was delimited when an intercellular hypha abutted onto a host cell. Infection sites with haustorial mother cells were observed at 12 hpi in barley and 24 hpi in wheat. In all four plant species, some atypical substomatal vesicle initials, substomatal vesicles and primary infection hyphae were observed. 相似文献
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Microscopical studies of fungal development and host responses during infection of the hop cultivars Northern Brewer (susceptible) and Wye Target (resistant) with a Zenith isolate of Sphaerotheca humuli are described. Resistance to powdery mildew disease in cv. Wye Target is principally determined by the R2 major gene. Fungal growth was typically restricted in cv. Wye Target following formation of a single haustorial initial or haustorium which failed to develop the characteristic lobes found in susceptible cells. The hypersensitive reaction of penetrated epidermal cells was associated with death of haustorial initials but the associated appressorium remained alive during the first 2 days after inoculation. In leaves expressing resistance, histochemical staining revealed deposition of lignin-like material and callose in penetrated cells and to a lesser extent in underlying palisade mesophyll cells. Transmission electron microscopy and enzymic digestion clearly demonstrated extensive paramural deposition of β-1.3 glucans (callose) in reacting mesophyll cells. Plant cell death, lignification and widespread callose deposition were rarely observed at infection sites in cv. Northern Brewer but collars of callose were deposited around the necks of all haustoria formed. 相似文献
14.
The extent to which uranyl ions and peroxidase permeated haustorial complexes isolated from Pisum sativum infected with Erysiphe pisi was determined by transmission electron microscopy (TEM).Freshly isolated complexes were treated with uranyl acetate, either directly, or after treatment with cell wall degrading enzymes, or with Triton X-100 and the uranyl ion, precipitated with phosphate. The complexes were then fixed with glutaraldehyde and examined by TEM to determine the distribution of uranyl phosphate crystals.Two independent experiments, each involving the examination of 80 complexes, gave similar results. After direct uranyl treatment, crystals were excluded from 38% of the complexes, were present in the extrahaustorial matrix only in 19% and occurred throughout in 43%. Breaks were observed in the extrahaustorial membrane of the last two categories. Uranyl crystals bound to the outer (host cytoplasmic) surface of the extrahaustorial membrane and also to the matrical surface, where this was accessible. In addition, the few necrotic haustorial complexes observed were completely permeated.Following pre-treatments with pectinase and cellulase, or Triton X-100, uranyl crystals were present throughout the complexes in all or 96%, of the complexes respectively.In similar experiments involving treatment with horseradish peroxidase (instead of uranyl acetate) followed by the addition of hydrogen peroxide and 3,3-diaminobenzidene, electron opaque deposit occurred around the complexes but never internally in any part of them. Even where breaks in the extrahaustorial membrane were visible the extrahaustorial matrix was not permeated.It is concluded that the extrahaustorial membrane and haustorial plasma membrane are semipermeable in many of the isolated haustorial complexes but that some are damaged during isolation and purification procedures; that a barrier to diffusion exists where the extrahaustorial membrane is joined to the wall of the haustorial neck and in other parts of the neck wall so that the whole boundary of the extrahaustorial matrix restricts diffusion of solutes; and that the extrahaustorial matrix is a gel which precludes the passage of large molecules through it. The physiological implications of the results are discussed. 相似文献
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Histological studies of the expression of the Lr9, Lr20 and Lr28 alleles for resistance to leaf rust in wheat 总被引:4,自引:1,他引:3
The development of the leaf rust fungus ( Puccinia recondita f.sp. tritici ) in a susceptible cultivar and three other cultivars possessing the Lr9, Lr20 and Lr28 alleles for resistance was studied by light and fluorescence microscopy. Formation of the substomatal vesicle, intercellular hypha and the first haustorial mother cell was unaffected by resistance. Lr9 and Lr28 expression was rapid, first seen as early initiation of hyphal branching at 16 h after inoculation, then reduced haustorial diameters at 19 h. Limited host cell necrosis was seen immediately afterwards. Elongation of intercellular hyphae was reduced between 20 and 24 h, and virtually ceased by about 30 h. Numbers of infection sites with a second haustorial mother cell were briefly higher at 24 h. Reduced hyphal branching and haustorial mother cell numbers were seen at 20–24 h and 36 h respectively. Lr20 expression was not seen until 36 h when reduced hyphal branching was observed, accompanied by extensive host cell necrosis. Reduced haustorial mother cell numbers were detected at 48 h. Findings suggested a secondary role for host cell necrosis in the expression of the Lr9 and Lr28 alleles. Host necrosis may play a determinant role in Lr20- based expression. 相似文献
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ABSTRACT Apple fruit tissues infected with Botryosphaeria dothidea were examined by transmission electron microscopy using susceptible cv. Fuji and resistant cv. Jonathan. Immature (green) and mature (red) fruits of cv. Fuji with restricted or expanding lesions were also examined to reveal subcellular characteristics related with latent and restricted disease development. In infected susceptible mature fruits, cytoplasmic degeneration and organelle disruption commonly occurred, accompanying cell wall dissolution around invading hyphae. Cell wall dissolution around invading hyphae in subepidermis was rare in immature, red halo-symptomed cv. Fuji and resistant cv. Jonathan fruits. In infected immature fruits of cv. Fuji, presumably at the latent state of disease development, cellular degeneration was less severe, and invading hyphae contained prominent microbody-lipid globule complexes or the deposition of thin electron-dense outer layer around cell wall of intercellular hyphae. Both mature fruits with red halos and resistant apple fruits formed cell wall protuberances at the outside of cell walls. In addition, electron-dense extramural layers were formed in the resistant apple fruits. Aberrant hyphal structures such as intrahyphal hyphae were found only in resistant fruit tissues, indicating the physiologically altered fungal growth. These ultrastructural changes of host tissues and fungal hyphae may reflect the pathogenesis of apple white rot under varying conditions of apple fruits. 相似文献