Development of Infection Structures by the Direct-Penetrating Soybean Rust Fungus (Phakopsora pachyrhizi Syd.) on Artificial Membranes

The development of infection structures by the directly infecting soybean rust fungus of different artificial membranes was followed by light and scanning electron microscopy. On water agar uredospores developed germ tubes without appressoria. On dialysis membranes more than 80% of the uredospores formed appressoria. With low frequencies (1–7%) also primary hyphae and/or penetration hyphae were present. When cellulose nitrate membrane filters with pore diameters ≤ 0.2 μm were used, uredospores germinated but showed a strongly reduced appressoria formation. Membranes with pores ≥ 0.1 μm allowed a development of infection structures similar to that on dialysis membranes. In experiments with paraffin oil incorporated into collodion membranes more than 90% of the uredospores formed appressoria, about 50% of the appressoria developed hyphae. Ungerminated spores and germ tubes always contained 2 nuclei. In fully developed appressoria 4 nuclei were present. Compared with stomata entering rust fungi appressoria formation by Phakopsora pachyrhizi occurred more frequently and seemed to be less dependent on specific stimuli. Moreover, in most cases only few of the appressoria formed penetration or primary hyphae. The induction of these structures seemed to be dependent on further unknown stimuli.     

Ultrastructural studies of Phellinus sulphurascens infection of Douglas-fir roots and immunolocalization of host pathogenesis-related proteins

Interactions between roots of Douglas-fir (DF; Pseudotsuga menziesii) seedlings and the laminated root rot fungus Phellinus sulphurascens were investigated using scanning and transmission electron microscopy and immunogold labelling techniques. Scanning electron micrographs revealed that P. sulphurascens hyphae colonize root surfaces and initiate the penetration of root epidermal tissues by developing appressoria within 2 d postinoculation (dpi). During early colonization, intra- and intercellular fungal hyphae were detected. They efficiently disintegrate cellular components of the host including cell walls and membranes. P. sulphurascens hyphae penetrate host cell walls by forming narrow hyphal tips and a variety of haustoria-like structures which may play important roles in pathogenic interactions. Ovomucoid–WGA (wheat germ agglutinin) conjugated gold particles (10 nm) confirmed the occurrence and location of P. sulphurascens hyphae, while four specific host pathogenesis-related (PR) protein antibodies conjugated with protein A–gold complex (20 nm) showed the localization and abundance of these PR proteins in infected root tissues. A thaumatin-like protein and an endochitinase-like protein were both strongly evident and localized in host cell membranes. A DF-PR10 protein was localized in the cell walls and cytoplasm of host cells while an antimicrobial peptide occurred in host cell walls. A close association of some PR proteins with P. sulphurascens hyphae suggests their potential antifungal activities in DF roots.     

Differentiation-related proteins of the broad bean rust fungus Uromyces viciae-fabae,as revealed by high resolution two-dimensional polyacrylamide gel electrophoresis

On artificial polyethylene membranes providing a thigmotropic signal, uredospores of the broad bean rust fungus Uromyces viciae-fabae differentiated a series of infection structures which in nature are necessary to invade the host tissue through the stomata. Within 24 h germ tubes, appressoria, substomatal vesicles, infection hyphae and haustorial mother cells were developed successively. Alterations in protein metabolism during infection structure differentiation of this obligate plant pathogen were analyzed in the absence of the host plant by high resolution two-dimensional polyacrylamide gel electrophoresis (2-DE) and silver staining. The norm pattern representing the 2-DE protein patterns of the whole developmental sequence of infection structures of U. viciae-fabae showed 733 spots. During infection structure differentiation 55 proteins were newly formed, altered in quantity, or disappeared. Major alterations in the protein pattern occurred during uredospore germination and when infection hyphae were formed. Uredospore germination was characterized by a decrease of acidic proteins and an increase mainly of proteins with isoelectric points ranging from weakly acidic to basic.Abbreviations 2-DE two-dimensional polyacrylamide gel electrophoresis - DAPI 4,6-diamino-phenylindol - kDa kilo Dalton - pl isoelectric point - PMSF phenylmethylsulfonyl fluoride - SDS-PAGE sodium dodecyl sulfate polyacrylamide gel electrophoresis     

Scanning electron microscopy of differentiating and non-differentiating uredosporelings of wheat stem rust fungus (Puccinia graminis f. sp. tritici) on an artifical substrate

Germination of uredospores of the wheat stem rust fungus (Puccinia graminis f. sp. tritici) on a Millipore membrane and differentiation of sporelings into hyphae and infection structures induced by a heat (30 °C) shock treatment are described. Development of infection structures on an agar medium was generally similar to those formed in vivo although some variations were also observed. Anastomoses among branches of the same hypha and between different hyphae were common. Uredospores germinated on Millipore membranes without the heat shock treatment, produced only undifferentiated long germ tubes; however, differentiation occurred when the spores were germinated on the agar medium by subjecting to the non-differentiating treatment (20 °C/3.5 hr) and incubating at 24 °C.     

Untersuchungen über den chemischen Aufbau von Sporen- und Keimschlauchwänden der Uredosporen des Weizenrostes (Puccinia graminis var. tritici)

Zusammenfassung Zellwände und Keimschläuche von Uredosporen des Weizenrostes (Puccinia graminis var. tritici) wurden isoliert, und ihre chemische Zusammensetzung wurde quantitativ untersucht. Als gemeinsame Bausteine enthalten Sporenwände und Keimschlauchwände Proteine, Lipide und die Neutralzucker Galaktose, Glucose und Mannose. Die einzelnen Komponenten liegen in unterschiedlicher Menge vor. Auch qualitativ unterscheiden sich die Sporenwände und die Keimschlauchwände: Melanin ist nur in den Sporenwänden vorhanden, in den Keimschlauchwänden dagegen nicht. Der polymer gebundene Aminozucker der Keimschlauchwände ist N-Acetylglucosamin, das mit großer Wahrscheinlichkeit als Chitin vorliegt. Die Sporenwände enthalten dagegen polymeres Glucosamin (vermutlich Chitosan).Sporenwände sind in 3% iger NaOH löslich. Aus diesem Extrakt läßt sich mit Fehlingscher Lösung ein Galaktoglucomannan fällen, das überwiegend aus Mannose besteht. Aus der entsprechenden Fraktion der Keimschlauchwände, in der ebenfalls Mannose überwiegt, kann mit Fehlingscher Lösung kein Mannan gewonnen werden. Der in NaOH unlösliche Satz der Keimschlauchwände ist zum größten Teil aus Glucose und N-Acetylglucosamin aufgebaut. Es gibt keine identischen Polysaccharidfraktionen von Sporen- und Keimschlauchwänden. Sie sind heteropolymer und setzen sich jeweils aus Galaktose, Glucose und Mannose zusammen.

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Investigations on the chemical composition of spore walls and germ tube walls of wheat rust (Puccinia graminis var. tritici) uredospores

Summary Spore walls and germ tube walls from uredospores of wheat stem rust (Puccinia graminis var. tritici) were isolated and their chemical compositions determined quantitatively. The spore and germ tube walls are commonly composed of proteins, lipids, and the neutral sugars mannose, glucose and galactose. Carbon and nitrogen content, total lipids, composition of bound amino acids, total glucosamine and chitin content, and neutral sugars of spore and germ tube walls were compared. While the carbon content of the germ tube walls is only slightly higher than that of the spore walls, the germ tube walls contain twice as much nitrogen and lipids as the spore walls. The higher nitrogen content of the germ tube walls is due to higher amounts of bound amino acids and hexosamine. The polymeric germ tube wall hexosamine is insoluble in 3% NaOH, while the bulk of the polymeric spore wall hexosamine will go into solution when treated with 3% NaOH. The polymeric amino sugar of the germ tube wall is N-acetylglucosamine, which in all probability is present as chitin. In comparison, spore walls contain polymeric glucosamine (probably chitosan).The predominant neutral sugar of the spore walls is polymeric mannose (90%) while the germ tube walls contain polymeric glucose and mannose in nearly equal amounts. Galactose occurs in both wall types as a minor constituent.From spore walls completely dissolved in 3% NaOH we were able to precipitate a galactoglucomannan with fehling's solution. This galactoglucomannan was composed mainly of mannose. The corresponding fraction of the germ tube wall gave no precipitate with Fehling's solution. An alkali insoluble fraction of the germ tube wall consists mainly of glucose and N-acetylglucosamine. There are no identical polysaccharide fractions in spore walls and germ tube walls. They are always heteropolymers. Melanine is found in spore walls but not in germ tube walls.

     

Cell walls of germinating uredospores: I. Amino Acid and carbohydrate constituents

Synthesis of germ tube wall is a major quantitative event during germination penetration of fungi on host plants, but little is known of germ tube composition or metabolic regulation. Sonic oscillation was used to separate germ tubes from germinating uredospores of Uromyces phaseoli var. typica. Uniformly ¹⁴C-labeled wall fractions from both structures were prepared by repeated low speed centrifugation and extraction with polar and nonpolar solvents. Based on amino acid analysis, approximately 6 and 16% of the carbon from uredospore and germ tube walls, respectively, was present in amino acids readily accessible to protease. Covalent linkages between amino acid and carbohydrate of walls was indicated by analysis of fragments prepared by mild hydrolytic procedures and separated by column chromatography and paper electrophoresis. The existence of protein in wall structures may resolve some previous uncertainty about the occurrence of protein biosynthesis during germination of rust fungi. Glucose, mannose, and glucosamine were the only carbohydrate components identified in both germ tubes and uredospore walls but different percentages were observed (germ tubes 28: 16: 16; uredospore 6: 36: 6). In germ tubes, most of the glucosamine was present in linkages hydrolyzed only by strong acid treatment, suggesting chitin-like polymers. In uredospore walls, glucosamine appears to be associated with red uredospore pigment which has properties similar to those of a melanin. Approximately 20% of the carbon in walls could not be identified with known compounds, partially because of degradation during the analytical procedures.     

Effect of Light on Uredospore Germination and Germ Tube Growth of Soybean Rust (Phakopsora pachyrhizi Syd.)

The effect of light on uredospore germination and germ tube growth of Phakopsora pachyrhizi was studied. Frequency of uredospore germination was only partially reduced by high light intensity (> 1,9 * 10⁴ mW * m^?2). In uredospores unilaterally irradiated with polychromatic light germ tubes always emerged from the shadowed side. Already developed germ tubes showed a negative phototropic response. Both effects were inducible by low light intensities. Negative phototropism of germ tubes was a blue light effect. Light of 441 nm was more effective than that of 422 nm or 372 nm. Red light (> 600 nm) was ineffective, green light (513 nm) induced medium responses. In half-side illumination studies longitudinal halves of germ tube tips and spores were irradiated under a microscope. The tips of the germ tubes bent into the illuminating beam. In half-side illumination studies germ tubes always emerged from the illuminated spore halves. Under unilateral illumination liquid paraffin reversed this light “polarization” of spores and the negative phototropism of germ tubes. These results suggest that during unilateral illumination spores and germ tube tips act as a lens focussing the light on the wall farthest away from the light source., There, in uredospores emergence of germ tubes is stimulated and in germ tubes growth is inhibited. As a consequence, under unilateral illumination germ tubes emerge at the shadowed side of the spores and grow away from the light.     

马铃薯对晚疫病水平抗性的组织细胞学观察

以马铃薯晚疫病水平抗性品种LBr-12和感病品种费乌瑞它为材料,采用普通光学和电子显微镜技术,系统研究了马铃薯与晚疫病菌(致病疫霉)互作的组织细胞学反应特征。观察结果显示:(1)接种后,水平抗性材料LBr-12出现过敏反应,病菌被限制在侵染点的几个细胞中,菌丝产生较少的分支和吸器。(2)感病品种费乌瑞它被侵染细胞呈蔓延趋势,菌丝产生较多的分支和吸器。(3)电镜观察发现,抗病品种上病菌的胞间菌丝、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,包括原生质的电子致密度加深、液泡增多变大、菌丝细胞壁不规则增厚、细胞器排列紊乱及解体、吸器母细胞及吸器形态异常、病菌最终畸形坏死,同时发现抗病品种受病菌侵染时可迅速产生结构防卫反应,形成的细胞壁沉积物使胞壁极度增厚或细胞膜上产生乳突状结构。     

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.     

The hyphae ofUromyces appendiculatus within the leaf tissue after high pressure freezing and freeze substitution

Summary The fine structure of the intercellular dikaryotic hyphae of the biotrophic fungusUromyces appendiculatus was studied. High pressure freezing and freeze substitution were used to achieve a closer approximation of the native state than with conventional fixation and dehydration techniques. In addition to organelles previously described in rust fungi, heavily decorated multivesicular bodies (star bodies) were found close to the nuclei. Two types of tubular-vesicular complexes were distributed randomly within the cytoplasm of the hyphae. Furthermore, a more or less pronounced brush-like fibrillar layer on the hyphal walls was detected. The possibility that the latter two structures are correlated with the biotrophic phase of this fungus is discussed.Abbreviations TVC tubular-vesicular complex - MVB multivesicular body - M mitochondrion - N nucleus - NP nuclear pore - S septum - MT microtubule     

The ultrastructure of dormant,germinating, and photo-inhibited uredospores of the rust fungusPuccinia graminis f. sp.tritici

Summary A comparison was made of fixed and non-fixed uredospores of the wheat stem rust fungusPuccinia graminis f. sp.tritici, using thin sectioning and freeze-etching. The latter technique yielded new information on the ultrastructure of dormant, germinating, and photo-inhibited uredospores, although the distribution of intramembranous particles (IMPs) was similar in each case. A stereological analysis of thin sectioned specimens provided quantitative data on organelle volumetric densities complementing the qualitative information. Evidence suggests that light acts by preventing the dissolution of wall material in the germ pore regions. Methylcis-ferulate, the uredospore self-inhibitor, is also believed to act at this stage in the germination process, and possible links between photo-inhibition and self-inhibition are discussed.     

Irregular growth forms and cell wall modifications,polygalacturonase detection,and endocell formation in <Emphasis Type="Italic">Fusarium oxysporum</Emphasis> f. sp. <Emphasis Type="Italic">radicis-lycopersici</Emphasis> infecting tomato plants,as studied ultrastructurally and cytochemically

Pathogen cells of Fusarium oxysporum f.sp. radicis-lycopersici infecting container-grown tomato plants were characterized ultrastructurally, using gold-complexed probes, chitinase and wheat germ agglutinin to localize chitin, and polyclonal antibodies to a polygalacturonase to localize this enzyme. It was isolated and purified from the pathogen growing in culture. Many fungal cells were of irregular forms (microhyphal, frondose) with modified, thin or imperceptible lucent wall layers, in which were often included components seemingly of host origin. Gold particles of the polygalacturonase probe were concentrated on portions of penetration hyphae and in areas of associated altered host wall. Fine filamentous-like structures, often linked to fungal cells, reached into extracellular matter and into host walls. Examination of 0.2–0.25 μm-thick sections at 120 kV, and tilted at various angles, indicated that fungal cells frequently had a pronounced wavy contour. Labelling of thin walls for chitin was mostly nil, particularly in contact with host walls, as of also thicker walls in similar situations, or it was then associated with the outside opaque layer. Cells of diverse dimensions with thin or thicker walls and with altered or normal content, contained endocells. Walls of the encodcells and of the enclosing cells often labelled differently for chitin with both probes. Endocells mostly did not originate from proliferation of a living into a dead cell but often ensuing as an apparent fragmentation of the cell content or following its retraction. The bearing of these observations on the host-pathogen relationship, particularly concerning the role of thin-walled hyphae and irregular forms, is discussed.     

Microscopic Observation on the Development of Puccinia striiformis in the Spike and Stem of Wheat

The majority of germ tubes of the pathotype CYR32 of Puccinia striiformis f.sp. tritici formed on the surface of spike organs of the susceptible wheat cv. Suwon 11 penetrated through the stomatal pore, only a few germ tubes formed small appressoria over the stomata. In the lemma, palea and glume, the stripe rust fungus spread between the parenchyma cells close to the inner epidermal layer, but the fungus did not develop between the thick‐walled cells near the outer epidermal layer of these organs. In the awn and stem, spread of the stripe rust was confined to the intercellular spaces of the chlorophyll parenchyma, beneath the invaded stomatal pore of the epidermis and the urediniospores to be released disrupted the epidermis. In the caryopsis, the spread of hyphae was restricted to the intercellular spaces of the pericarp cells.     

Selective staining of fungal hyphae in parasitic and symbiotic plant-fungus associations

A cytochemical method for light microscopical studies is described which allows the specific detection of fungal hyphae in plant-fungus associations: e.g. lichens, mycorrhiza, or fungal infections of plant tissue. The specimens were fixed and embedded in epoxy resin by a standard protocol for electron microscopy. Semithin sections were successively incubated with fluorescein isothiocyanate labelled wheat germ agglutinin (FITC-WGA) and calcofluor white (CW). FITC-WGA stained exclusively the fungal cell walls while CW stained both the fungal and the plant cell walls. Therefore, FITC-WGA is an excellent marker for the fungal hyphae.     

Wall fibrils ingerminating sporangiospores of Gilbertella persicaria (Mucorales)

Summary In germinated sporangiospores of Gilbertella persicaria, negatively contrasted fibrils, 20–70 Å diam, are seen in thin sections of the inner vegetative wall that is continuous with the germ tube wall. The fibrils are randomly oriented in a loose network in this wall and in the germ tube wall. Germ tubes have an additional surface layer of fine, positively contrasted fibrils which appear as a nap-like coating on the hyphae. Patterns of wall fibril orientation are not revealed by transverse sections of spore and germ tube walls, whereas oblique and tangential sections are favorable for examining cell wall architecture in situ. Staining patterns show textural and compositional differences among various wall layers.     

Dodder hyphae invade the host: a structural and immunocytochemical characterization

Summary.  Dodder (Cuscuta pentagona) hyphae are unique amongst the parasitic weeds for their ability to apparently grow through the walls of the host plant. Closer examination reveals, however, that the hyphae do not grow through the host but rather induce the host to form a new cell wall (or extend the existing wall) to coat the growing hypha. This chimeric wall composed of walls from two species is even traversed by plasmodesmata that connect the two cytoplasms. Compositionally, the chimeric wall is quite different from the walls of either the host or in other cells of the dodder plant, on the basis of immunocytochemical labeling. The most striking differences were in the pectins, with much stronger labeling present in the chimeric wall than in either the host or other dodder walls. Interestingly, labeling with monoclonal antibodies specific to arabinan side chains of rhamnogalacturonan I pectin fraction was highly enriched in the chimeric wall, but antibodies to galactan side chains revealed no labeling. Arabinogalactan protein antibodies labeled the plasma membrane and vesicles at the tips of the hyphae and the complementary host wall, although the JIM8-reactive epitope, associated with very lipophilic arabinogalactan proteins, was found only in dodder cells and not the host. Callose was found in the plasmodesmata and along the forming hyphal wall but was found at low levels in the host wall. The low level of host wall labeling with anticallose indicates that a typical woundlike response was not induced by the dodder. When dodder infects leaf lamina, which have more abundant intercellular spaces than petioles or shoots, the hyphae grew both intra- and extracellularly. In the latter condition, a host wall did not ensheath the parasite and there was clear degradation of the host middle lamellae by the growing hyphae, allowing the dodder to pass between cells. These data indicate that the chimeric walls formed from the growth of the host cell wall in concert with the developing hyphae are unique in composition and structure and represent an induction of a wall type in the host that is not noted in surrounding walls. Received February 1, 2002; accepted July 8, 2002; published online November 29, 2002     

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.     

Penetration of Phytophthora cinnamomi into disease tolerant and susceptible eucalypts

The mechanisms of penetration of Phytophthora cinnamomi Rands into seedling eucalypt roots were studied by light and electron microscopy. Culture grown seedlings of root-rot tolerant Eucalyptus st johnii and root-rot susceptible Eucalyptus obliqua were inoculated with both zoospores and mycelium. Zoospores encysted on roots of both species and the germ tubes penetrated without the formation of appressoria. Swellings, previously described as appressoria, were formed when the germ tube was slow to enter the host by intracellular penetration. Vegetative hyphae penetrated both inter- and intracellularly into the zones of root elongation and differentiation, often through root hairs. Evidence of hydrolysis of the host cell-wall at the point of penetration was observed in electron micrographs. Several hours after the germ tube penetrated the epidermis, a thick plug of amorphous material formed in the germ tube slightly below the level of the outer walls of the epidermal cells, sealing off the hypha within the root. Behaviour of zoospores and germ tubes and the mechanism of penetration were similar on both hosts. Micrographs do not suggest any kind of a hypersensitive reaction by the host cells during the early stages of infection.     

Ultrastructure at the Host-Parasite Interface of Phytophthora capsici in Roots and Stems of Capsicum annuum

The infecting hyphae of Phytophthora capsici grew intercellularly in infected tissues of roots and stems of pepper (Capsicum annuum). The vascular tissues were not markedly disorganized even when heavily infected. Intercellularly growing hyphae penetrated the host cells by forming haustorium-like bodies. The consistent features of ultrastructural changes in infected tissues of pepper roots and stems were degeneration of cell organelles and dissolution of host cell walls. The cytoplasm detached from the cell wall aggregated abundantly around some haustorium-like bodies or the penetration sites of fungal hyphae. The host cell walls were palely stained, thinned and swollen, possibly being biochemically altered by the action of fungal macerating enzymes. Electron-dense, wall-like material was apposed on the outer wall of xylem vessel contacted by fungal hyphae. The infecting hyphae were also surrounded by granular, dark-staining cytoplasm. Characteristics of host cell responses to the invading P. capsici were the deposition of papilla-like material on host cell walls next to hyphae and the encasement of haustorium-like bodies with wall appositions.     

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。