A method for staining infection hyphae in pine leaves.

Fungus-inoculated Pinus radiata leaves were fixed and then stained with periodic acid-Schiff reagent. Pieces of leaf with fungal material on the surface were removed. These pieces were stained in lactophenol cotton blue for a few minutes and then mounted in dilute lactophenol cotton blue. Microscopic examination of fungal material inside and outside the mounted leaf pieces revealed the following: condidia and germ tubes on the leaf surface were red, appressoria remained unstained, and infection hyphae within the leaf were stained blue. This differential staining method was particularly useful for distinguishing germ tubes from infection hyphae arising from appressoria.     

Mode of Infection of Phyllosticta maculata on Banana as Revealed by Scanning Electron Microscopy

The initial infection stages of Phyllosticta maculata on banana were studied using scanning electron microscopy. Conidial germination on the banana leaf surface commenced within 3 h postinoculation to produce a long and slender germ tube. The hyphae developed secondary branches and mostly grew randomly across the leaf surface. Appressoria were formed at the apex of the germ tubes within 18 h postinoculation and were variable in shape. A layer of an extracellular matrix surrounded the appressoria at the pathogen–host interface. On the fruit surface, conidia germinated to produce predominantly swollen germ tubes which functioned as lateral appressoria together with some slender ones. These germ tubes were formed within 3 h postinoculation. There was no stomatal penetration apparent on the leaf; instead, direct penetration through the cuticle with and without the formation of appressoria was observed. Cuticular degradation on the leaf surface was evident with a circular, darkened area around the point of penetration by hyphae or appressoria. The significant role of pycnidia and conidia in the epidemiology of the disease was further demonstrated in naturally infected leaf samples.     

A Standardized Cotton Blue Stain for Pollen Germination and Growth in Andropogoneae Grasses

Styles along with ovaries were dissected from spikelets of sorghum and other grasses and fixed in 1:3 acetic alcohol at 0.5 hr intervals for 3 hr after pollination. The material was hydrated and then macerated in 50% HCl for 10 min at 56 C, washed in running water for 30 min, cleared in lactophenol for 35 min at 60 C, stained in 1% cotton blue for 50 min at 50 C, and destained for 1 hr in lactophenol at room temperature. Styles were dissected from the ovary in a drop of lactophenol. Slight pressure on the coverslip with the blunt end of a needle and a little warming spreads the stylar tissue and reveals the darkly stained pollen tubes.     

Dynamics of cell wall components of Magnaporthe grisea during infectious structure development

Oligosaccharides derived from cell wall of fungal pathogens induce host primary immune responses. To understand fungal strategies circumventing the host plant immune responses, cell wall polysaccharide localization was investigated using fluorescent labels during infectious structure differentiation in the rice blast fungus Magnaporthe grisea . α-1,3-glucan was labelled only on appressoria developing on plastic surfaces, whereas it was detected on both germ tubes and appressoria on plant surfaces. Chitin, chitosan and β-1,3-glucan were detected on germ tubes and appressoria regardless of the substrate. Major polysaccharides labelled at accessible surface of infectious hyphae were α-1,3-glucan and chitosan, but after enzymatic digestion of α-1,3-glucan, β-1,3-glucan and chitin became detectable. Immunoelectron microscopic analysis showed α-1,3-glucan and β-1,3-glucan intermixed in the cell wall of infectious hyphae; however, α-1,3-glucan tended to be distributed farther from the fungal cell membrane. The fungal cell wall became more tolerant to chitinase digestion upon accumulation of α-1,3-glucan. Accumulation of α-1,3-glucan was dependent on the Mps1 MAP kinase pathway, which was activated by a plant wax derivative, 1,16-hexadecanediol. Taken together, α-1,3-glucan spatially and functionally masks β-1,3-glucan and chitin in the cell wall of infectious hyphae. Thus, a dynamic change of composition of cell wall polysaccharides occurs during plant infection in M. grisea .     

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).     

Infection process of Colletotrichum dematium on mulberry leaves: An unusual method of sporulation

Abstract

The pre-penetration and infection process of Colletotrichum dematium on mulberry leaf was investigated by scanning electron microscope. Conidia produced on germination appressoria directly or at the end of short germ tubes. Appressoria were formed mostly over cuticle, but sometimes over stomata also. At 72 h post-inoculation, an extensive network of sub-cuticular runner hyphae (RH) was produced. The RH were traceable by the cuticular bulgings on leaf surface. The RH emerged to leaf surface through ruptured cuticle to form secondary infection hyphae (SIH). The SIH re-entered the leaf tissue by sending penetration branches through stomata. Conidia were formed singly on short conidiophores from the RH and SIH, at short intervals. The conidia developed on RH were exposed to leaf surface through ruptured cuticle. Some times conidia were released through stomata also. The RH and SIH had thick knots from which hyphal branches and conidia were developed. Definite acervuli were not developed.     

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.     

Appressoria of the nematophagous fungus verticillium suchlasporium

Appressoria of the nematophagous fungus Verticillium suchlasporium infecting eggs of the beetroot cyst nematode Heterodera schachtii were studied by field emission scanning electron microscopy (FESEM). Protoappressoria and mature appressoria were found in both germ tubes and mycelial hyphae, and mucilaginous material was seen where the appressoria contacted the surface of the egg. The role of this material in the penetration of the eggs by the hyphae is discussed.     

Surface carbohydrates and cell wall structure of in vitro-induced uredospore infection structures ofUromyces viciae-fabae before and after treatment with enzymes and alkali

Summary Uredospores ofUromyces viciae-fabae differentiate to form germ tubes, appressoria, infection hyphae and haustorial mother cells on oil-containing collodion membranes. The cell walls of these infection structures were studied with the electron microscope and with FITC-labeled lectins before and after treatment with enzymes and inorganic solvents. Binding of the FITC-labeled lectins was measured with a microscope photometer. The enzymes pronase E, laminarinase, chitinase and lipase had different effects on each infection structure. Pronase treatment uncovered the chitin of germ tubes, appressoria and haustorial mother cells, but not of substomatal vesicles and infection hyphae. A mixture of - and -1,3-glucanase which also contained chitinase activity dissolved germ tubes and appressoria completely, but not infection pegs, substomatal vesicles, infection hyphae and haustorial mother cells. After treatment with laminarinase or lipase, an additional layer, which is especially obvious over the substomatal vesicle, infection hypha and haustorial mother cell, bound to LCA-FITC. In the wall of the haustorial mother cell, a ring, which surrounds the presumed infection peg, had strong affinity for WGA after protease and sodium hydroxide treatment. The infection structures have a fibrillar skeleton. The main constituent seems to be chitin. This skeleton is more dense or has a higher chitin content in the walls of appressoria and haustorial mother cells. The fibrils of the skeleton extend throughout the cell wall of the germ tube and appressorium. They are embedded within amorphous material of complex chemical composition (-1,3-glucan, -1,3-glucan, glycoprotein). The chitin of the infection peg, substomatal vesicle, infection hypha and haustorial mother cell is covered completely with this amorphous material. These results show, that each infection structure has distinct surface and wall characteristics. They may reflect the different tasks of the infection structures during host recognition and leaf penetration.Abbreviations AP appressorium - FITC fluorescein isothiocyanate - GT germ tube - HC haustorial mother cell - IH infection hypha - IP infection peg - LCA Lens culinaris agglutinin - n nucleus - neu neuramic acid - p pyranoside - R ring - s septum - SV substomatal vesicle - WGA wheat germ agglutinin     

Role of Pear Fruit Cuticular Wax and Surface Hydrophobicity in Regulating the Prepenetration Phase of Alternaria alternata Infection

The role of cuticular wax and the surface hydrophobicity of the fruit of the ‘Zaosu’ pear (Pyrus bretschneideri Rehd) in regulating the prepenetration phase of Alternaria alternata infection were analysed in vivo and in vitro. Results showed that cuticular wax on an intact fruit surface, as well as wax extracts mounted on silanized glass slides or onion epidermis, favoured the formation of short, differentiated germ tubes and large numbers of appressoria (APP) or infected hyphae (IH). Dewaxed fruits or no wax extract mounted on in vitro surfaces, however, enhanced germ tube elongation and inhibited or delayed the formation of infection structure. High surface hydrophobicity resulting from cuticular wax also stimulated infection structure formation, as contact angle (hydrophobicity) was positively correlated with APP formation but negatively correlated with germ tube elongation. Alternaria alternata cutinase enzyme activity was also induced by cuticular wax, both in vivo and in vitro. These findings suggest that the chemical composition and hydrophobicity of pear fruit cuticular wax are essential in facilitating fungal invasion by regulating the growth and differentiation of A. alternata during the prepenetration phase.     

Cytological Study of Wheat Spike Infection by Bipolaris sorokiniana

The infection of wheat spikelets by Bipolaris sorokiniana , the causal agent of black point on grains and grain shrivelling, was examined by light and electron microscopy. Conidia of the pathogen germinated 6–12 h after inoculation on the surfaces of the different spike tissues. Extracellular sheaths were observed on germ tubes and appressoria attached to the surfaces of lemma, palea and seeds, but were only scarcely detected on the surface of conidia. Appressoria, frequently found over grooves, formed penetration hyphae invading the epidermal cell walls. Infection process was similar on the surface of the lemma, palea and glume. Growth of the fungus in the epidermal and parenchyma cells was found predominantly in the cell walls, and hyphae also extended intercellularly and intracellularly. Infection of seeds appeared to occur via two ways: (i) direct infection of the outer layers of the cell walls of the pericarp and (ii) through entering the stigma into the pericarp cells. Secretion of host cell wall hydrolytic enzymes at the apex of the penetrating hyphae may facilitate the spread of the fungus. In addition, toxins secreted by the fungus might explain the rapid death of host cells in contact with or distant to fungal cells. A host response to fungal infection involved the development of appositions between cell wall and plasma membrane in cells adjacent to fungal cells. Fungal hyphae were sometimes also surrounded by electron dense material.     

Composition and organisation of extracellular matrices around germ tubes and appressoria ofColletotrichum lindemuthianum

Summary The ultrastructure and composition of the extracellular matrices (ECMs) associated with germ tubes and appressoria ofColletotrichum lindemuthianum have been examined. Flexuous fibres (fimbriae), up to 6 m long and 4–30 nm in diameter, protruded from the surface of germ tubes and appressoria. Anionic colloidal gold and lectin cytochemistry showed that ECMs of germ tubes and appressoria contain basic proteins, -D-mannose and -D-galactose residues. A monoclonal antibody, UB26, was raised to infection structures isolated from leaves ofPhaseolus vulgaris infected withC. lindemuthianum. UB26 recognised a protein epitope on two glycoproteins (M_r 133,000 and 146,000). Reductions in the M_r of these proteins after treatment with peptide-N-glycosidase and trifluoromethane sulphonic acid suggest that they carry N- and O-linked side-chains. Immunofluorescence and EM-immunogold labelling showed that glycoproteins recognised by UB26 were restricted to the ECMs around germ tubes and appressoria but fimbriae were not labelled. Unlike appressorial germ tubes formed in vitro, intracellular infection hyphae were not labelled, suggesting that the glycoproteins recognised by UB26 are not present on fungal structures formed within host cells. In liquid culture, these glycoproteins were not released into the medium, suggesting they are physically linked to the cell wall. Also, the glycoproteins were not removed from glass surfaces by ultrasonication. These results suggest that glycoproteins recognised by UB26 may be involved in the adhesion of germ tubes and appressoria to substrata. Our results show that the ECMs of germ tubes and appressoria differ markedly in structure and composition from those of conidia and intracellular hyphae, and that extracellular glycoproteins are associated with specific regions of the fungal cell surface.Abbreviations ECM extracellular matrix - BPA Bauhinia purpurea agglutinin - BSA bovine serum albumin - DIC differential interference contrast - FITC fluorescein isothiocyanate - GNL Galanthus nivalis lectin - GSI-B₄ Griffonia simplicifolia isolectin B₄ - HEPES (N-(2-hydroxyethyl)piperazine-N-(2-ethanesulphonic acid) - IIF indirect immunofluorescence - IPC isopycnic centrifugation - MAb monoclonal antibody - PEG polyethylene glycol - PBS phosphate buffered saline - PNGase peptideN-glycosidase - SDS-PAGE sodium dodecyl sulphate polyacrylamide gel electrophoresis - TCS tissue culture supernatant - TEM transmission electron microscopy - TFMS trifluoromethane sulphonic acid     

The infection process, sporulation and survival of Alternaria helianthi on sunflower

Electron microscopy was used to study the infection of sunflower leaves by Alternaria helianthi. Conidia germinated by producing one to many germ tubes which grew across the leaf surface before forming appressoria. The fungus directly penetrated its host through the cuticle and epidermis. Entry into the host through wounds and stomates was also observed. Extracellular sheaths were found to be associated with germ tubes and intercellular hyphae of A. helianthi. Conidiophores developed through collapsed stomates, from leaf veins, trichomes and also from mycelium growing across the host leaf surface. Microcylic conidia were produced directly from parent conidia under certain conditions. Studies using a volumetric spore trap showed that the airborne spore concentration followed a distinct periodicity with peaks occurring between 0900 and 1100 h each day. Laboratory studies showed that safflower, noogoora burr and bathurst burr could serve as alternative hosts for A. helianthi. The pathogen was readily isolated from sunflower crop debris from a diseased crop that had been harvested 1 yr earlier.     

Colletotrichum: A model genus for studies on pathology and fungal-plant interactions.

Species of Colletotrichum use diverse strategies for invading host tissue, ranging from intracellular hemibiotrophy to subcuticular intramural necrotrophy. In addition, these pathogens develop a series of specialized infection structures, including germ tubes, appressoria, intracellular hyphae, and secondary necrotrophic hyphae. Colletotrichum species provide excellent models for studying the molecular basis of infection structure differentiation and fungal-plant interactions. In this review we cover the various stages of the infection processes of Colletotrichum species, including spore adhesion and germination, germ tube and appressorium differentiation and functions, and biotrophic and necrotrophic development. The contribution of molecular, biochemical, and immunological approaches to the identification of genes and proteins relevant to each stage of fungal development will be considered. As well as reviewing results from several groups, we also describe our own work on the hemibiotrophic pathogen, C. lindemuthianum.     

Symptoms and Prepenetration Events Associated with the Infection of Common Bean by the Anamorph and Teleomorph of Glomerella cingulata f.sp. phaseoli

Glomerella cingulata f.sp. phaseoli and Colletotrichum lindemuthianum are the teleomorph and anamorph, respectively, of the pathogen causing anthracnose in common bean. The mechanisms relating to the sexual reproduction of this plant pathogen are still unclear, as are the infection structures involved and the symptoms produced. In the present study, bean plants were inoculated with ascospores and conidia, and the events taking place within the following 120 h were investigated using light microscopy and scanning electron microscopy. The symptoms exhibited by plants inoculated with the ascospores were milder than in those inoculated with conidia. Microscopy revealed that most of ascospores produced germ tubes and appressoria at an early stage (24 h after inoculation). From 48 h onwards, the formation of hyphae and the production of germ tubes and appressoria were great. In contrast, infections originating from conidia developed more slowly, and at 24 and 48 h, many non‐germinated conidia were present, whereas only few conidia developed germ tubes and appressoria. Ascospore germination and appressorium formation were similar on both resistant and susceptible cultivars. Hence, the symptoms and the temporal sequence of events associated with the infection of bean plants by the two fungal forms differed, although the structures produced were similar. This is the fist report comparing symptoms and prepenetration events between anamorph and teleomorph of G. cingulata f.sp. phaseoli in common bean.     

Abnormal germling development by brown rust and powdery mildew on cer barley mutants

The barley leaf rust fungus forms appressoria over host leaf stomata and penetrates via the stomatal pore. High levels of avoidance to leaf rust fungi have been described in some wild accessions of Hordeum species where a prominent wax layer on the stomata inhibits triggering of fungal appressorium differentiation. Leaf rust avoidance has not yet been found in H. vulgare. Since cuticular leaf waxes are implicated in the avoidance trait, we screened 27 eceriferum (cer) mutant lines of H. vulgare for avoidance to barley leaf rust. These mutations affect leaf waxes. Reduction in numbers of germ tubes forming appressoria over stomata was found in some lines, but the greatest reduction (ca 30%) was less than previously found in wild barley spp. or in an accession of H. chilense used here as a check. In one line (cer-zh654), avoidance was due to a combination of factors. Firstly, fewer germ tubes oriented towards stomata and so failed to contact them. Secondly, some germ tubes that encountered stomata did not form appressoria but over-grew them. In this line, therefore, the fungus tended to fail both to locate and to respond to stomata. The appressoria of barley powdery mildew form on leaf epidermal cells that they penetrate directly. On certain cer lines, a proportion of germlings of the barley powdery mildew fungus developed abnormally, suggesting that germlings failed to recognise and/or respond to the leaf surface waxes on these mutants.     

黄绿绿僵菌对褐飞虱侵染过程的扫描电镜观察

本实验利用扫描电镜观察了黄绿绿僵菌Metarhizium flavoviride菌株分生孢子对褐飞虱Nilaparvata lugens(St(a)l)的侵染过程.结果表明:分生孢子多分布在褐飞虱节间膜、体表的褶皱凹陷等部位,主要以芽管或产生附着胞入侵,然后在体表长出菌丝和产孢.菌体进入寄主血腔后,利用体腔内营养大量增...     

Observations on the Responses of Lentil Root Cells to Hyphae of Fusarium oxysporum

The infection of lentil roots by Fusarium oxysporum Schlecht and the responses of the host cells to invading hyphae were examined by light microscopy. Hyphae from inoculum placed on the zone of cell elongation entered the roots at the juncture of epidermal cells within 8 h after inoculation. Although swollen hyphal apices were observed on the epidermal cells, root penetration occurred without formation of these structures or appressoria. The sheath of material found on the surface of uninoculated roots was absent from inoculated roots penetrated by hyphae. Prior to penetration, the epidermal cells became irregular in shape and their cytoplasm appeared to be plasmolysed or granular. Hyphae were observed in the cortex 10—12 h after inoculation and non–penetrated cortical cells were distinctly lobate. Often these lobed cells had a broad, peripheral band of diffuse cytoplasm. When hyphae were first observed in the cortical cells, the walls were ruptured and only slightly stained or unstained by toluidine blue. The inability of such walls to bind the stain may have been the result of the removal of wall components by fungal enzymes. Although extensive proliferation of hyphae was evident throughout the cortex after 24 h of incubation, the endodermis and vascular cylinder were free of hyphae for at least 72 h. Hyphae from inoculum placed on the root hairs or the root apex failed to penetrate the roots during the first 24 h of incubation. The cytological results herein are discussed in relation to the infection of field plantings by this pathogen.     

Keratitis Due to the Wood Saprobic Ascomycete, Auerswaldia lignicola (Family Botryosphaeriaceae), in a Carpenter in India

Keratitis due to Auerswaldia lignicola in a 32-year-old Indian male carpenter is described. At presentation, the patient reported persistent pain and tearing (left eye) in spite of topical antimicrobial therapy for more than 3 weeks. Clinically, mycotic keratitis was suspected, and direct microscopy of corneal scrapings stained by lactophenol cotton blue and Gram stains revealed broad septate hyphae. Intensive topical antifungal therapy was then given for 15 days. The keratitis continued to progress, necessitating therapeutic penetrating keratoplasty. Following the keratoplasty, there was rapid reduction in inflammation and gradual quietening of the eye. Brown–black fungal colonies resembling Lasiodiplodia theobromae were isolated from corneal scrape and corneal button (post-surgery) material on Sabouraud glucose–neopeptone agar; however, sporulation did not occur, so the morphological identification could not be confirmed. Sequence analysis of the 18S rRNA region of extracted fungal genomic DNA yielded an identification of A. lignicola Ariyawansa, J.K. Liu & K.D. Hyde; the sequence data have been deposited in GenBank (A. lignicola strain DK/V4, accession number KC866317.1). Medical management of keratitis due to such rarely reported fungal species may be difficult, necessitating surgical procedures.     

落叶松-杨栅锈菌在感病杨树寄主上发育过程的组织学研究

采用荧光染色技术、光学显微镜和电子显微镜技术,系统研究了落叶松-杨栅锈菌在感病杨树叶片上的发育过程。结果表明,在侵染前期（接种12h以内）,锈菌夏孢子在杨树叶片上萌发,利用芽管或附着胞穿透叶表气孔后形成气孔下囊,进而在胞间产生侵染菌丝。进入活体营养生长阶段（接种后24-96h）,锈菌不断产生大量吸器来满足营养需求的同时,侵染菌丝在叶肉细胞间隙蔓延分枝生长至形成菌落结构。最终在产孢阶段（接种120h之后）产孢菌丝分化形成的夏孢子在表皮下聚集成堆,待成熟后突破表皮显露出来。