The fine structure of conidial development in the genus Torula. II. T. caligans (Batista and Upadhyay) M. B. Ellis and T. terrestris Mistra.

Conidia of Torula caligans (Batista & Upadhyay) M. B. Ellis comb.nov. and T. terrestris Misra were examined by transmission- and scanning-electron microscopy. Torula caligans produced four-celled conidia in which the central cells were distinctly larger than the basal and apical cells. Conidia of T. terrestris were 4- to 7-celled long and ellipsoidal in shape. Conidiogenous cells in both species developed melanin only within the lowermost part of the lateral walls while the other cells of the conidium were uniformly melanized around the circumference of the cell; melanin in these cells being deposited within, at least, half the width of the cell wall. In both species new conidia arose from evagination of the hyaline apex of the conidiogenous cell and are therefore blastoconidia. The systematic relationships between T. caligans and T. terrestris and other species of the genus Torula are discussed.     

Kabatiella bupleuri sp. nov. (Dothideales), a pleomorphic epiphyte and endophyte of the Mediterranean plant Bupleurum gibraltarium (Apiaceae)

Bupleurum gibraltarium is an evergreen shrub endemic to southern Spain and northern Algeria and Morocco. We have collected and cultured an undescribed Kabatiella species that is consistently associated with the flower rachises and leaves of B. gibraltarium in the province of Granada. The fungus forms melanized acervuli on overwintered flower rachises. It also can be isolated from yeast-like conidial masses that emerge from senescing leaves and from surface-disinfected healthy leaves. Like other Kabatiella species, the fungus forms blastic falcate to lunate conidia simultaneously from the apex of conidiogenous cells in acervuli. In culture, melanized single-septate conidia form blastically from the vegetative hyphae that accumulate in yeast-like masses. These conidia germinate by budding to form secondary yeast-like cells or directly as hyphae. In culture, the fungus behaves like, and could be confused with, Aureobasidium and Hormonema species. We describe the growth of this species in agar media and its phylogenetic position based on the analyses of nuclear ribosomal RNA gene sequences. This new species is a sister species of the morphologically similar clover pathogen, K. caulivora.     

Ultrastructural features of a Stagonospora species (Ascomycotina) in senescent tissues of perennial ryegrass (Lolium perenne L.)

The pycnidium of a Stagonospora sp. observed in degenerating leaf sheath and blade tissues of Lolium perenne L. contained concentric bodies similar to those found in the mycobiont of several lichens and a few other free-living ascomycetes. These bodies occurred in vegetative hyphae, hyphae of the pycnidial wall, in conidiogenous cells and in conidia and comprised a central electron-translucent core surrounded by a granular zone and an outer radially orientated fibrillar or lamellar zone. In some cases the entire body was surrounded by a translucent halo. A second feature of the interwoven hyphae of the pycnidial wall was the occurrence of pores connecting adjacent hyphae. These lateral pores appeared identical to pores in septa between cells of individual hyphae, and like them, were associated with Woronin bodies.     

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.     

CONIDIOGENESIS IN CERATOCYSTIS ULMI,CERATOCYSTIS PICEAE,AND GRAPHIUM PENICILLIOIDES

Conidiogenous cells of both the synnematous and mononematous conidiophores in Ceratocystis ulmi and C. piceae develop by sympodial proliferation. Holoblastic conidia are produced on nodules or short denticles from the synnematous conidiogenous cells and on well-defined denticles from the mononematous conidiogenous cells. Graphium penicillioides is characterized by percurrent proliferation of the conidiogenous cells and the conidia are holoblastic and annellidic. A comparison of the type material of G. penicillioides with the lectotype specimen of C. piceae indicates that G. penicillioides is not the conidial state of C. piceae. The method of conidial development in C. ulmi and C. piceae is distinct from that of G. penicillioides, the lectotype species of Graphium; these conidial states are, therefore, placed in a new hyphomycete genus, Pesotum, as the Pesotum state of Ceratocystis ulmi and C. piceae, respectively.     

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。     

哈氏木霉分生孢子发育的超微结构和细胞化学

通过电子显微镜和细胞化学标记研究了哈氏木霉分生孢子发育的超微结构和细胞化学。分生孢子发育的超微结构研究表明,分生孢子壁的发育是有个由薄而光滑到厚而有疣的过程;期间脂肪体在分生孢子和产孢细胞中不断累积,最后脂肪体沿着内壁排列成一层。免疫金标记结果显示,幼嫩的分生孢子壁中缺乏几丁质和纤维素,只有在成熟的分生孢子壁中含有几丁质;出乎意料的是在成熟分生孢子中发现有少量纤维素的存在。     

Production ofbeauveria bassiana [Deuteromycotina. Hyphomycetes] sympoduloconidia in submerged culture

Submerged conidiation of the entomogenous HyphomyceteBeauveria bassiana is reported. Conidiogenous cells produce sympoduloconidia on conidiogenous cells in liquid shaker culture; hyphal bodies and mycelium fragments are also produced. The morphology of these fungal structures is discussed and illustrated. Several simple liquid media are tested for the production of conidia and hyphal bodies. Maximum yields of conidia (170×10⁶ conidia/ml) are produced in a medium consisting of sucrose (2%) — yeast extract (0.5%) and basal salts, and maximum yields of hyphal bodies (740×10⁶ hyphal bodies/ml) in a sucrose (2.5%) — yeast extract (2.5%) medium.      

Scanning Electron Microscopy of Conidium Formation of Stemphylium vesicarium on Onion Leaves

Onion leaves were inoculated with conidia of Stemphylium vesicarium and the development and morphology of conidiophores and conidia on the leaf surface were examined using scanning electron microscopy. Solitary, but usually fasciculate conidiophores emerged through the epidermis. Hyphae growing on or above the leaf surface also differentiated into conidiophores. Conidiophores were straight or flexuous, simple, smooth or verrucose and cylindrical but enlarged apically at the site of conidiumproduction. Smooth, round, bud-like conidial initials were produced singly at the apex of the verrucose conidiophores. As conidia matured, they became oblong to ovoid and densely verrucose. Once the mature conidium seceded, a small pore was visible at the, apex of the conidiogenous cell. Conidiophores proliferated percurrently at the distal region, forming secondary conidiophores and conidia.     

Surface Ultrastructural Studies on the Germination,Penetration and Conidial Development of Aspergillus Flavus Link : Fries Infecting Silkworm,Bombyx Mori Linn

Aspergillosis is a common disease of the silkworm Bombyx mori Linn., caused by an insect mycopathogen Aspergillus flavus Link:Fries. The present study reveals the germination, penetration and conidial development of A. flavus on the larval integument of B. mori under SEM. Four different strains (NB18, KA, NB4D2 and NB7) of B. mori was surface inoculated with ca. of 1 x 10(6) conidia/ml. Each conidium germinated on the cuticle approximately 6 h after inoculation, forming a humpy or suctorial appressoria within 24 h. The hyphae which entered into haemocoel 2 day post-inoculation, grew and multiplied extensively, forming a mycelial complex, causing death of the host larva in about 4-5 days. This occurred with minimal breakdown of the internal tissues. Death of the host was followed by ramification of the fungus through the mesodermal and epidermal tissues, leading to larval mummification about 5-6 days after inoculation. Extensive fungal growths on the entire larval body followed, consisting of aerial hyphae, which developed branched conidiophores. The aerial hyphae with abundant conidiophores formed a confluent yellowish green fungal mat over the entire larval body in 6-7 days of post-inoculation. The tip of each emerging conidiophores gradually dilated and developed to become a bulbous head known as the vesicle. A large number of conidiogenous cells were produced over the entire surface of vesicle, which later developed into finger-like projections termed as sterigmata or phialides. The phialides matured within 2 days after the aerial hyphae emerged as evidenced by chains of conidia at their tips. The conidia were globose with externally roughened walls. The life cycle of the fungus on B. mori was completed in six to seven days.     

Fungal Olecranon Bursitis in an Immunocompetent Patient by <Emphasis Type="Italic">Knoxdaviesia dimorphospora</Emphasis> sp. nov.: Case Report and Review

Bursitis is a common medical condition that can occur either with or without infection. We present a case of fungal olecranon bursitis in an immunocompetent individual caused by the new species Knoxdaviesia dimorphospora. It is a dematiaceous filamentous fungus characterized by the production of two different conidia: hyaline and cylindrical, which rise up from phialidic conidiogenous cells located in the upper part of differentiated and unbranched conidiophores, and pale brown and ellipsoidal conidia produced by phialidic conidiogenous cells which are born directly on hyphae. In addition to its morphological peculiarities, the novelty of the fungus was confirmed by sequence analysis of the internal transcribed spacer (ITS) regions and D1/D2 domains of the 28S of the nuclear rRNA gene. The fungal infection was confirmed by cytological examination and repeated cultures. The infection was resolved by surgical debridement and drainage, and the patient presented a complete functional recovery 3 months later. The in vitro antifungal susceptibility to this new human opportunist is provided, terbinafine being the drug with the most potent activity.     

Studies on the phylogenesis of pathogenic ‘black yeasts’

This paper deals mainly with the conidium ontogenesis and phylogenesis of black yeasts such as E. jeanselmei, E. gougerotii, E. dermatitidis and E. spinifera. The conidium ontogenesis of E. jeanselmei, E. gougerotii and E. dermatitidis was almost the same. One to five annellated tips were observed through a scanning microscope at the apices of conidiogenous cells, which were bottle- or jar-shaped. Annellations on the tips looked like fringes and the conidiogenous cells of these three species were annellides. Annellated projections occurred on hyphae and annelloconidia were also produced from them. Occasionally, secondary annellides occurred from primary ones. They looked like moniliform hyphae. Daughter conidia sometimes budded directly from mother cells. The shapes and sizes of the conidia of these species were very similar to each other. The conidium ontogenesis of E. spinifera was annellidic as well. However, a single annellated tip usually occurred on an annellide. The annellated tips of the fungus were long and more than 20 annellations were observed on their walls. The conidiogenesis of the four species of Exophiala is only annellidic. There were no differences in the biological examinations except KNO3 assimilation among these four species. The growth of E. jeanselmei and E. gougerotii was poor at 37 degrees C. The GC contents of E. jeanselmei 1171, E. gougerotii B-1800, E. dermatitidis MM-7 and E. spinifera DU-3342 were 54.6, 54.6, 56.6 and 59.7%, respectively.     

Tympanosporium parasiticum gen. et sp. nov., a hyperparasitic Hyphomycete on Tubercularia vulgaris with pleomorphic conidiogenesis

Tympanosporium parasiticum forms annellated conidiogenous cells with short cylindric (tympaniform) conidia in white sporodochia on Tubercularia vulgaris Tode ex Fr. On agar media the conidia form short necks and blow out narrow secondary conidia in a phialidic manner producing very restricted yeast-like colonies. Only in the vicinity of the host hyphae (without tropic growth or hyphal connections) mycelia develop which form phialidic or annellate conidiogenous cells with narrowly cylindrical conidia in the agar, and sporodochia with short truncate conidia like those on the natural substrate in the aerial mycelium. No other host fungus was found to support this kind of growth. The mode of parasitism is compared with that of other hyperparasitic fungi.For Tympanosporium parasiticum the name Oospora candidula Sacc. was incorrectly used by Grove (1885) and the name Oospora filamentosa was proposed by Arnaud but never published.     

Association of melanin content with conidiogenesis in Bipolaris Sorokiniana of barley (Hordeum vulgare L.)

Sixty-seven isolates of Bipolaris sorokiniana of barley, belonging to three groups (black, white and mixed) were studied to find an association of melanin with the spore production of the fungus. Conidiogenesis in black, white and mixed subpopulation of B. sorokiniana was positively correlated with melanin content/g of mycelium. Primary hyphae of black and mixed subpopulation differentiated into secondary hyphal structures which subsequently produced conidiophores and conidia. Primary hyphae could not differentiate into secondary hyphae and subsequently conidiophores and conidia in white subpopulation. A melanin containing mutant developed from white subpopulation regained its ability to differentiate into secondary hyphae, conidiophores and conidia. Results showed that melanization of mycelia B. sorokiniana mycelia is an important factor for conidia production.     

The fine structure of conidial development in the genus Torula. III. T. graminis Desm.

Torula graminis produced blastoconidia in acropetalous chains after the evagination of a characteristic conidiogenous cell. Conidia consisted of up to 15 cells and their cell wall was differentiated into an outer melanized zone and an inner hyaline zone. A consistent cytoplasmic feature of conidial cells was the presence of dictyosomal-like membranous stacks often closely associated with the nucleus. Vesicles that developed from the dictyosomal-like cisternae were probably involved in conidial wall synthesis.     

An electron microscopic observation of conidium and hypha of Erysiphe graminis hordei

Summary The fine structure of conidia and hyphae ofErysiphe graminis hordei, attacking leaves of barley, were investigated. The cell walls of conidia and hyphae were relatively thin and consisted of two layers, the inner and outer layers. The surface of conidia was not smooth and the thickness of cell walls was irregular. A nucleus, mitochondria, endoplasmic reticula and vacuoles in plasma were identified. The vacuoles in conidia were tightly packed with fine granules. Such granules in vacuoles, however, were not observed in hyphal cells.A lamellar structure was located in conidia, but not in hyphal cells. This structure may be specific in conidia of this fungus, but its function is not yet known. Many glycogen granules were observed in endoplasm of conidia, which were scattered or congregated in groups. In hyphae, however, they were extremely few. Hyphal septa were connected directly with the inner layer of cell walls. These had simple septal pore. The Woronin bodies were detected in the endoplasm in the vicinity of hyphal septa.Contribution No. 192.     

Phylogeny and morphology of Hirsutella tunicata sp. nov. (Ophiocordycipitaceae), a novel mite parasite from Peru

A new species of Hirsutella was isolated from unidentified mites on Petri plates inoculated with soil and root fragments collected from asparagus rhizosphere at Virú, Northern Peru. The fungus differs from other Hirsutella species by an envelope surrounding the conidium, conidia dimension and DNA sequences. In PDA cultures, the mycelium produced aerial hyphae with conidiogenous cells mainly at right angles, occasionally showing a secondary conidiophore. The solitary conidia are cymbiform, slightly apiculate, 5.0–6.0 × 3.0–4.0 μm. Phylogenetic analyses with partial rRNA and β-tubulin gene sequences confirmed the fungus as an Hirsutella (Ophiocordycipitaceae). Closest species shown by maximum likelihood and neighbor-joining trees were H. nodulosa and H. aphidis, from which the new species differs for conidium or conidiogenous cells dimensions, lack of synnemata and host type. A recombination event was also detected in the rRNA of the holotype strain, involving Ophiocordyceps sinensis as major parent and O. cochlidiicola as minor parent. A complement, inverted insertion was also found in its rRNA, involving part of the ITS2 and 5.8S regions, flanked by two short nucleotide arrays. Due to conidia dimension and phylogenetic position, the fungus is described as Hirsutella tunicata sp. nov. A review of mononematous Hirsutella species is provided.     

Phaeomoniella zymoides and Phaeomoniella pinifoliorum spp. nov., new acid-tolerant epiphytic fungi isolated from pine needles in Korea

Two new epiphytes of anamorphic ascomycetes, Phaeomoniella zymoides sp. nov. and Phaeomoniella pinifoliorum sp. nov., were isolated from the needle surface of Pinus densiflora in Korea. The new taxa were characterized by acid-tolerant, slow, partially yeast-like growth and extensive production of emerging cells on convex wrinkled mycelial colonies. Phaeomoniella zymoides produced mycelium with large numbers of intercalary and lateral or terminal vesicles or swollen cells. Large conidiogenous cells had a swollen base and appeared to be phialidic, and many phialoconidia also were produced from lateral hyphal apertures. Maturing colonies of Ph. zymoides were made up of dark green to blackish areas and produced a Phoma-like synanamorph. Primary conidia became elongate mother cells giving rise to polar or lateral secondary conidia. Phaeomoniella pinifoliorum was characterized by reduced, swollen, phialide-like cells, lateral production of conidia from hyphae and terminal or subterminal, or less commonly lateral, secondary production of conidia from yeast-like primary conidia. When ITS and 28S rDNA sequences were compared and analyzed with those of best matching GenBank taxa, the Phaeomoniella group consisted of three lineages, "zymoides", "pinifoliorum" and "chlamydospora" clades, which again showed a complete sister relationship to Moristroma quercinum ined.     

The fine structure of Culicinomyces clavisporus invading mosquito larvae

Electron microscope observations were made of the Australian and U.S. strains of Culicinomyces clavisporus infecting mosquito larvae. The wall of the conidium is composed of an inner (primary) layer, an outer (secondary) layer, and an exterior coating of a mucopolysaccharide substance believed responsible for conidial adhesion to the host cuticle prior to germination and penetration. In some instances the wall of the conidium is ruptured during germination and new wall layers and mucoid coating form around the germ tube whereas in other specimens the conidial wall layers extend around the germ tube without fracturing. The most common invasion site is through the larval foregut following ingestion of conidia. The apex of the germ tube presses tightly against the surface of the foregut cuticle and the mucilaginous coating is stripped away. There is evidence to suggest that the host epicuticle, which disappears across the zone of contact with the germ tube, is utilized for nutrition of the invading fungus. A collar of cuticle forms around the germ tube apex and a narrow penetrant hyphae extends into the procuticle. It is believed that cuticular penetration is primarily enzymatic assisted by mechanical pressure. The penetrant hypha swells into an oval cell in the hypodermal region and vegetative hypha then invade the hemocoel. The cells of the hypodermis develop signs of degeneration presumably due to the secretion of toxic substances from the invading hyphae. Host reactions, involving melanization of the host tissues, are sometimes evident among the invading penetrant hyphae in the cuticle or in the hypodermal cells in contact with the fungus. Melanized capsules form around some of the hyphae within the hemocoel. These latter reactions do not directly involve host blood cells and are examples of “humoral encapsulation” similar to that described by other authors during invasion of pathogenic organisms into mosquito larvae and chironomid larvae.