小麦秆锈菌生理小种21C3CPH和Ug99 SSR标记的筛选

小麦秆锈病是一种专化性很强的大区远距气传病害,曾造成多个小麦种植国家和地区的毁灭性损失,新的强毒力小种Ug99含有对Sr31等多个重要抗秆锈基因的联合毒性,对我国的小麦生产有巨大潜在威胁,因此,加强小麦秆锈菌生理小种的监测和鉴定是有效防治该病害的基础性研究工作和关键环节。现代分子生物学的迅猛发展,为许多研究提供了新的方法和手段,分子标记技术在区分小麦秆锈菌生理小种方面显示了充分的可行性。本研究利用25对SSR引物对7个小麦秆锈菌主要生理小种进行DNA多态性分析,结果显示,所有特异引物对秆锈菌的扩增结果均呈现出丰富的多态性,秆锈菌的不同生理小种之间存在遗传差异。其中引物SSR180在21C3CPH中扩增出205bp的特异性条带;引物SSR6在Ug99中扩增出170bp的特异性条带,经过多次的重复试验,这些特异性条带均能够比较稳定地重复出现,说明引物SSR180和SSR6可用于小种21C3CPH和Ug99的特异性检测。     

胃癌细胞PHA、DBA、WGA受体的电镜定位

应用自制的Ｓｔｒｅｐｔａｖｉｄｉｎ－ｇｏｌｄ探针,在胃癌和非癌胃粘膜组织的超薄冰冻切片上,进行ＰＨＡ、ＤＢＡ、ＷＧＡ受体的电镜定位。结果显示,三种凝集素受体主要定位于胃癌细胞的粘液泡、细胞膜和内微囊腔面微绒毛,以及非癌胃粘膜细胞的膜相结构内。证实凝集素能与细胞内特定糖基结合,且胃癌细胞内某些凝集素受体结合位点明显多于非癌胃粘膜细胞。本文结果可为进一步探讨凝集素用于胃癌导向诊断和治疗的可行性,提供超微形态学依据。     

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。     

小麦几丁质酶基因Wch2的克隆与表达分析

利用小麦几丁质酶基因PCR特异片段为探针,分离克隆了一个小麦Chidl几丁质酶基因Wch2。该基因编码311个氨基酸,不含内含子,具有一个信号肽、一个富含半胱氨酸的几丁质结合区域、两个变异区、两个酶活性区域。Southern分析表明,在小麦基因组中Wch2有多个拷贝。秆锈菌接种诱导Wch2在一对小麦近等基因系中差异表达;在抗病系中国春Srll中,接种3d后Wch2开始表达,6d后表达量更高;而在感病等基因系中国春srll中,在所有取样分析的时间内均未检测到Wch2表达。将Wch2克隆到细菌表达载体pET22b,在细菌中表达的重组Wch2具有几丁质酶活性。这些结果说明,分离的Wch2基因在小麦秆锈菌诱导的抗性反应中具有重要作用。     

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。电镜观察结构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。     

小麦条锈菌PsCdc2基因的克隆及在条锈菌侵染小麦后的转录表达分析

【目的】克隆小麦条锈菌细胞分裂基因PsCdc2,分析该基因在条锈菌接种小麦后不同时间点的表达特征。【方法】利用PCR和RT-PCR技术克隆PsCdc2的cDNA序列和基因组序列,采用生物信息学技术预测分析该基因编码蛋白的保守结构域及基本特性,对该蛋白进行系统发育分析,构建进化树;运用实时荧光定量RT-PCR技术,以PsCdc2在夏孢子时期的表达情况为对照,分析该基因在亲和及非亲和互作中不同时间点的表达特征。【结果】PsCdc2基因组序列长2279 bp,由11个外显子和10个内含子构成,开放阅读框为885 bp,编码294个氨基酸,分子量为33.14 kDa,等电点为6.26。编码蛋白含两个保守的激酶特征位点,一个跨膜螺旋区域。PsCdc2基因编码蛋白与小麦秆锈菌、新型隐球菌、玉米瘤黑粉菌等多种真菌的Cdc2高度相似,其中与小麦秆锈菌的Cdc2亲缘关系最近,序列相似性达73.1%。实时荧光定量RT-PCR结果表明,在亲和组合中,该基因在条锈菌接种小麦的前期上调表达,其中接种后12 h时表达量最高,约为夏孢子中表达量的1.62倍,接种后24-268 h,基因表达基本呈下调趋势,其中96 h基因表达量最低,仅为夏孢子时期的0.07倍。在非亲和组合中,该基因表达基本呈下调趋势,在接种后各个时间点的表达量均低于在夏孢子中的表达量,其中接种后12 h时表达量最高,但仅为夏孢子中表达量的0.34倍;接种后96 h表达量最低,为夏孢子中表达量的0.02倍。【结论】PsCdc2可能通过调控条锈菌的细胞周期循环参与了侵染前期初生菌丝生长和吸器母细胞的形成,与条锈菌的致病性相关。本文首次报道了小麦条锈菌的Cdc2基因,为进一步揭示条锈菌细胞周期调控的本质及研究开发靶向Cdc2的新型农药,以及实现对小麦条锈病的新型药剂防治提供了理论基础。     

2012–2013年中国禾柄锈菌小麦专化型小种动态及新毒力谱分析

监测具有潜在威胁的小麦秆锈病病原菌小种动态并分析其毒力谱变化,是培育抗病品种不可或缺的基础工作。在小麦秆锈病鲜有发生的情况下,于2012–2013年获得小麦田间秆锈病标样11份和经有性生殖过程的禾柄锈菌小麦专化型菌样22份。上述菌样经过分离、纯化,得到了53个单孢子堆菌株。利用国内最新采用的禾柄锈菌小麦专化型小种与毒力鉴别寄主体系进行分析,鉴定出13个生理小种,其中34C3RTGQM和34Oro II-MRGQM为优势小种,出现频率均为13.2%,首次发现了对Sr5+Sr11具有联合毒力的6个新小种,其出现频率处在1.9%–13.2%范围内。同时测定出Sr9e、Sr26、Sr31、Sr33、Sr37、Sr38、Sr47和Sr Tt3等8个抗秆锈病单基因对全部供试菌株表现抗病,余下40个单基因系则分别表现对1个以上至全部菌株感病。结论:(1)首次报道了6个对Sr5+Sr11具有危险性的联合毒力谱的新小种类型,这类毒力类型应当被密切关注;(2)明确了当前完全有效的8个抗秆锈病基因和其他部分有效的抗病基因;(3)初步说明了有性循环菌株与无性循环菌株在毒力结构上存在差异。     

福尔马林固定及石蜡包埋组织透射电镜样品制备

随着电子显微镜的应用和普及,超微病理诊断为临床病理工作者提高疑难病例的诊断水平,起到了极大的帮助作用。因而电镜技术越来越引起病理工作者的重视。但在实际工作中往往无法预先知道哪些标本需作透射电镜观察,而常规病理标本又多已经福尔马林固定或石蜡包埋。我室自１９９３年以来,探索将福尔马林固定的组织及石蜡包埋的组织再制作成透射电镜样品,进行超微病理诊断,获得一定成效,现报道如下。材料和方法：标本取自本室活检常规福尔马林固定标本及本室常规石蜡包埋组织。经福尔马林固定时间为１ｈ－１ｗ。经观察定位,准确地将有意…     

灵芝子实体、菌丝体及孢子粉中多糖成分差异比较研究

为探讨灵芝子实体、菌丝体和孢子粉3种材料中多糖成分的差异,分别运用苯酚硫酸法进行多糖含量测定,运用离子色谱分析其酸水解后单糖组成,并运用HPLC分析各多糖图谱及经α-淀粉酶和β-1,3-葡聚糖酶处理后HPLC图谱的变化,结果发现,灵芝菌丝体中多糖含量最高,达到3.81%,孢子粉多糖含量为1.8%,灵芝子实体中多糖含量最低,仅为0.59%;水解后的单糖组成及摩尔比也有差异,子实体的单糖主要为葡萄糖和半乳糖,菌丝体和孢子粉的单糖主要为葡萄糖;HPLC图谱显示3种多糖出峰位置和分子量也不同,酶解效果表明多糖结构也相差较大。各样品多糖对小鼠巨噬细胞RAW264.7释放NO的产量的影响上,菌丝体与子实体多糖都表现出了很好的活性,而孢子粉多糖却呈现出较低活性。实验结果表明灵芝子实体、菌丝体和孢子粉3种材料的多糖成分差异大,在医药保健品使用中应区分使用。     

前环藻细胞核内骨架结构的电镜观察

对前环藻细胞直接进行戊二醛锇酸双固定后,在常规电镜切片上,不能分辨出核基质部分的细微结构;但采用特殊的DGD(Diethylene Glycol Distearate)包埋一切片去包埋电镜技术直接显示出前环藻的核基质是一个致密的纤维网状结构,染色体被紧紧地网络于其中。这一结果说明核基质不是核内无定形的凝胶状物质,而是一个复杂的网架,贯穿于整个核空间。     

Gold-conjugated arabinogalactan-protein and other lectins as ultrastructural probes for the wheat/stem rust complex

Arabinogalactan-protein (AGP, "beta-lectin") was isolated from leek seeds, tested for specificity, conjugated with gold colloids, and used as a cytochemical probe to detect beta-linked bound sugars in ultrathin sections of wheat leaves infected with a compatible race of stem rust fungus. Similar sections were probed with other gold-labeled lectins to detect specific sugars. AGP-gold detected beta-glycosyl in all fungal walls and in the extrahaustorial matrix. Other lectin gold conjugates localized galactose in all fungal walls except in walls of the haustorial body. Limulus polyphemus lectin bound only to the outermost layer of intercellular hyphal walls of the fungus. Binding of these lectins was inhibited by their appropriate haptens and was diminished or abolished in specimens pretreated with protease, indicating that the target substances in the tissue were proteinaceous or that polysaccharides possessing affinity to the lectin probes had been removed by the enzyme from a proteinaceous matrix by passive escape. Binding of Lotus tetragonolobus lectin was limited to the two outermost fungal wall layers but was not hapten-inhibitable. Limax flavus lectin, specific for sialic acids, had no affinity to any structure in the sections. In the fungus, the most complex structure was the outermost wall layer of intercellular hyphal cells; it had affinity to all lectins tried so far, except to Limax flavus lectin and to wheat germ lectin included in an earlier study. In the host, AGP and the galactose-specific lectins bound to the inner domain of the wall in areas not in contact with the fungus. At host cell penetration sites, affinity to these lectins often extended throughout the host wall, confirming that it is modified at these sites. Pre-treatment with protease had no effect on lectin binding to the host wall. After protease treatment, host starch granules retained affinity to galactose-specific lectins, but lost affinity for AGP.     

Lectin Binding Studies on the Cell Walls of Soybean Rust (Phakopsora pachyrhizi Syd.)

Walls of uredospores, infection structures, intercellular hyphae and haustoria of the soybean rust fungus (Phakopsora pachyrhizi) were studied by electron microscopy using gold-labeled wheat germ lectin (WGL) and Concanavalin A (ConA) as cytochemical probes. Receptors for WGL (probably chitin) were detected in all fungal walls included in this study. WGL-binding occurred throughout the entire walls (uredospores, appressorial cone, penetration hyphae, haustorial mother cells) or only to the inner wall layers (germ tubes, appressoria, intercellular hyphae).     

Cytological studies on rust fungi. (vi) fine structures of infection process of Kuehneola japonica (diet.) dietel

The behavior of rust fungi in their host plants has been elucidated by electron microscopy. However, most of the ultrastructural studies on rust fungi have focused on the uredial stage. In order to elucidate the features of the sporidial stage, we studied the fine structure of Kuehneola japonica, a short-cycle rust, in rose leaves. Infection pegs arising from appressoria penetrated the host walls. Papillae formed at the time of penetration against the outer epidermal cell walls. The papillae which had formed at the penetration sites grew extensively and partially surrounded the intracellular hyphae which were connected with the infection pegs. The intracellular hyphae in the epidermal cells developed further and entered adjacent parenchyma cells. Walls of parenchyma cells either invaginated or thin papillae formed at penetration sites and the invaginated walls or papillae surrounded the necks of the intracellular hyphae. Intracellular hyphae in both epidermal and parenchyma cells were not enveloped by the sheath before 20 days after inoculation. In specimens prepared 20 days after inoculation, some of the intracellular hyphae were enveloped by a sheath in both palisade and spongy parenchyma cells. The sheathed hyphae resembled haustoria of other rust fungi which had been described previously. Teliospore initials were formed in mycelial masses in intercellular spaces between the epidermal cells and palisade parenchyma cells 20 days after inoculation. Uninucleate teliospores developed from teliospore initials 30 days after inoculation.Contribution No. 32.     

小麦雪霉叶枯病菌侵染过程的细胞学研究

采用电镜技术研究了小麦雪霉叶枯病菌(Gerlachia nivalis)侵染过程的细胞学特征。电镜观察发现,分生孢子萌发产生的芽管由孢子细胞壁内层延伸而成;病菌侵入寄主体内后,胞间菌丝先在寄主细胞间扩展,随后胞间菌丝侵入坏死的寄主细胞,形成胞内菌丝;胞间菌丝和胞内菌丝在形态结构上无明显差异。在病菌扩展过程中,寄主细胞发生了一系列的病理变化,并最终坏死消解,寄主细胞的变化可能与病菌分泌的毒素有关。     

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。     

Studies on turfgrass snow mold caused byTyphula ishikariensis. II. Microscopical observation of infected bentgrass leaves

Light and transmission electron microscopy revealed thatTyphula ishikariensis penetrated into bentgrass leaves either through cuticles or stomata either by single hyphae or infection cushions formed on host surfaces. Time course study on infected leaves showed that penetration through stomatal subsidiary cells and their adjacent cells seemed to occur earlier than that through epidermal cells located farther from stomata. More than 30% of epidermal cells were infected by 10 days after inoculation. When hyphae penetrated through an intact cuticle of epidermal cells, they seemed to dissolve host cell walls enzymatically at penetration sites. Physical pressure also seemed to be involved in penetration.     

小麦条锈菌吸器母细胞超微结构的研究

本文利唱电镜技术研究了小麦条锈菌吸器母细胞的超微特征。观察发现,小麦条锈菌吸器母细胞大部位于胞间菌丝的顶部,但也可形成于两菌丝细胞间,同一菌丝细胞上可着生多个吸器母细胞,吸器母细胞的多核现象较为普遍。吸器母细胞壁由6层组成,而其隔膜可分辩为4层。细泡化学染色结果表明隔膜突中含有多糖类物质,吸器母细胞隔膜突的出现和消失与吸器的发育密切相关。本文结果表明小麦条锈菌吸器母细胞的一些超微特征明显不同于其它锈菌。     

Defense Reactions in Host and Nonhost Plants Against the Soybean Rust Fungus (Phakopsora pachyrhizi Syd.)

Growth and development of two races of the soybean rust fungus (Phakopsora pachyrhizi Syd.) were compared on host and nonhost plants. Both groups had several lines of defense, each of which could stop a part of attacking uredospores. Germ tubes and appressoria were produced equally well on hosts and nonhosts. A reduced formation of penetration hyphae contributed to the resistance of nonhosts and resistant host genotypes. In the epidermal cells of wheat and barley leaves, lower frequencies of penetration hyphae coincided with the production of papillae-like structures which were not penetrated. The last line of defense of all nonhosts was localized in the epidermal cell where the growth of the penetration hyphae was arrested definitively. The colony development in these species was suppressed completely. In highly resistant host genotypes the last defense reaction occurred later as a hypersensitive cell collapse which interrupted the growth of the rust colony.     

Effect of Rust Infection on Cell Walls of Barley and Wheat; Immunocytochemistry Using Anti-Barley Thionin as a Probe

Polyclonal antiserum prepared against barley cell wall thionin was used to localize and quantitate immunoreactive material on the cellular level in healthy and rust-infected leaves of barley and wheat. Three types of sites were used for the immunocytochemical analysis: as control sites, mesophyll cell walls were selected in uninoculated leaves, and in leaves that were inoculated with rust but where the sites were not in contact with the pathogen: these were compared with mesophyll cell walls that were in contact with intercellular rust hyphae in inoculated leaves.
Similar amounts of cell wall thionin were detected in all 3 barley cultivars before inoculation. At sites where intercellular hyphae of Puccinia hordei had made contact with mesophyll cell walls, less thionin was found in the compatible host cv. Larker, but in incompatible hosts (cvs. Gold and Bolivia) the thionin concentration did not differ from that of the controls.
Two cultivars of wheat were studied with respect to immunoreactive material in their mesophyll cell walls, the universal rust suscept cv. Little Club and the highly rust-resistant cv. Khapli. Before inoculation, leaves of cv. Khapli contained about twice the amount of immunoreactive material in mesophyll cell walls than those of cv. Little Club. This relation was unchanged in walls that had made contact with P. graminis tritici , but in non-contacted walls of infected cv. Little Club leavest, he concentration of this material had risen to levels typical for those of cv. Khapli. Tests for immunoreactive material with pre-embedding cytochemistry yielded negative results, indicating that it is not exposed on the surface of mesophyll walls in barley and wheat.