Identification and characterisation of the OSM1 map kinase gene from rice blast fungus Magnaporthe grisea

Dixon, Katherine Pamela

January 1999

No description available.

630

Perithecium morphogenesis in Neurospora crassa and Sordaria macrospora

Lord, Kathryn Mary

January 2013

Multicellular development in fungi is fundamentally different from that of animals or plants. In filamentous fungi, multicellular structures are formed by aggregation and adhesion of hyphae, followed by septation and specialisation of hyphal compartments within the aggregate. The perithecium, a flask-shaped sexual fruitbody produced by both Neurospora crassa and Sordaria macrospora, provides a model system in which to study fungal multicellular development. This study presents a detailed description of the morphological stages of perithecial morphogenesis in N. crassa and S. macrospora and its early stages, the ascogonial and protoperithecial stages, using a range of microscopical techniques. Details of the development of several mutants impaired in perithecial development are described, including: gene-deletion mutants of all nine mitogen-activated protein (MAP) kinases conserved in N. crassa; and three mutants pro22, pro40 and pro41 of S. macrospora, and their corresponding gene-deletions in N. crassa. The results confirm that all three MAP kinase cascades are required for sexual development. However, only the pheromone response and cell-wall integrity MAP kinase pathways, but not the osmoregulatory MAP kinase pathway, are essential for hyphal cell fusion. Evidence of cell fusion-related processes, regulated through MAP kinase signalling, have been identified as novel features important for the construction of fertilisable protoperithecia. These cell-fusion related processes include extracellular matrix deposition, hyphal attachment and envelopment. A novel phenotype of S. macrospora with defective ascogonial septation is presented. This pro22 mutant also has impaired hyphal cell fusion and produces only small, defective protoperithecia. The pro22 gene encodes a protein that is highly conserved throughout eukaryotes. Live-cell imaging revealed that this PRO22 protein is localised in the dynamic tubular and vesicular vacuolar-network of the colony periphery and in ascogonia. PRO22 is absent from the large spherical vacuoles in the vegetative hyphae of the sub-peripheral region of the colony. This points to a specific role of PRO22 in the tubular and vesicular vacuolar-network. Furthermore, the loss of intercalary septation in ascogonia suggests that PRO22 functions during the initiation of sexual development.

579.5

Biosystematic Studies in Crepidotus and the Crepidotaceae (Basidiomycetes, Agaricales)

Aime, Mary Catherine

07 May 2001

Fungi of the Crepidotaceae are characterized by saprotrophic habit, filamentous cuticle, and brown-pigmented basidiospores that lack either a germ pore or plage. The majority of species belong to Crepidotus, distinguished by their pleurotoid basidiomata. Because of their diverse morphology, the presence of several conflicting classifications, and lack of data regarding the biology, phenotypic plasticity, or phylogeny of these fungi, the present study sought first to determine phylogenetic relationships among the different taxonomic groups as a basis for addressing other aspects of Crepidotus biology and evolution. Sequencing analyses show the Crepidotaceae is not monophyletic, and the family concept is revised. Crepidotus and its sister genus Simocybe are found to be monophyletic. At least nine phylogenetic lineages within Crepidotus were uncovered, although relationships between them could not be resolved. However, none of the previously proposed infrageneric classifications are reflective of phylogeny. Morphological, biological, and phylogenetic species concepts were compared within a single phylogenetic unit, termed the Sphaerula group, showing an unusual amount of phenotypic plasticity exists within species, and a taxonomic revision of these species proposed. Also reported are several unique or unusual aspects of Crepidotus biology, including presence of a prolonged latent period prior to basidiospore germination; spontaneous reversion of differentiated hymenial cells to vegetative growth; and the revelation that structures previously termed pleurocystidia are actually the expression of secondary growth from basidia. Results from mating system, culture, and type studies, reassessment of morphological characters traditionally applied to agaric taxonomy, and a revised life cycle for the Crepidoti are presented. / Ph. D.

Melanomphalia

morphogenesis

Tubaria

species concepts

Pleurotellus

fungal biology