Muhammad Zeeshan Nazar

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Presentation transcript:

Muhammad Zeeshan Nazar Status Of Basidiomycetes Muhammad Zeeshan Nazar

The third phylum of fungi, the basidiomycetes has about 22,000 named species. The majority of edible fungi belong to the Phylum Basidiomycota. Among the basidiomycetes are not only the mushrooms, toadstools, puffballs, jelly fungi, and shelf fungi, but also many important plant pathogens including rusts and smuts.

These mushroom-producing basidiomycetes are sometimes referred to as "gill fungi" because of the presence of gill-like structures on the underside of the cap. The "gills" are actually compacted hyphae on which the basidia are borne.

Ecosystem Relationship Basidiomycota are very important for the ecosystem and for humans. Decomposition Many of the basidiomycota with the larger fruitbodies (toadstools etc.) are common and important agents of wood decay or decomposers of leaf litter, animal dung, etc.

Symbiotic Relationships Some also form important symbiotic relationships, such as mycorrhizal associations with the roots of a plant, whereby the fungus receives carbohydrates from the plant’s photosynthesis and the plant gains the mycelium's very large surface area to absorb water and mineral nutrients from the soil.

The basidia, which are the reproductive organs of these fungi, are often contained within the familiar mushroom, commonly seen in fields after rain, on the supermarket shelves, and growing on your lawn. Many mushrooms are used as food, but others are deadly poisonous. Cryptococcus neoformans causes severe respiratory illness.

General characters The fungi in the Phylum Basidiomycota are easily recognizable under a light microscope by their club-shaped fruiting bodies called basidia (singular, basidium), which are the swollen terminal cell of a hypha. Club shaped Basidiomycota are unicellular or multicellular, sexual or asexual, and terrestrial or aquatic.

Basidiospores Basidiomycota are so variable that it is impossible to identify any morphological characteristics that are both unique to the group and constant in the group. The most diagnostic feature is the production of basidia which are the cells on which sexual spores are produced, and from which the group takes its name. Basidiospores

Ballistospores One of the most fascinating characteristics of Basidiomycota is the production of ballistospores. A ballistospore/ballistoconida is a spore that is discharged into the air from the tips of sterigmata in species of fungus. Ballistospores may be sexual or asexual. Sterigma

Clamp connections Not all Basidiomycetes produce these, but when a fungus does it will always be a basidiomycete. A clamp connection is a structure formed by growing hyphal cells of certain fungi to ensure each cell, or segment of hypha separated by septa receives a set of different nuclei, which are obtained through mating of hyphae. It is used to create genetic variation within the hypha.

Life cycle

Basidiomycetes are named for their characteristic sexual reproductive structure, the basidium. As a group, the basidiomycota have some highly characteristic features, which separate them from other fungi. They are the most evolutionarily advanced fungi, and even their hyphae have a dinstinctly "cellular" composition.

Alternation of Generations The lifecycle of basidiomycetes includes alternation of generations . Spores are generally produced through sexual reproduction, rather than asexual reproduction.

Alternation of generations ??? 2 Multicellular stages alternate Sporophyte represents the diploid generation (2n). Produce spores by meiosis. A spore undergoes mitosis to become a gametophyte. Gametophyte represents haploid generation (n). Produce gametes. A sperm and egg fuse, forming a diploid zygote that undergoes mitosis and become the sporophyte. Alternation of generations ???

Plasmogamy Typically haploid Basidiomycota mycelia fuse via plasmogamy and then the compatible nuclei migrate into each other's mycelia and pair up with the resident nuclei.

In the basidium, nuclei of two different mating strains fuse (karyogamy), giving rise to a diploid zygote that then undergoes meiosis. This is the dikaryotic stage of the basidiomyces lifecyle and it is the dominant stage. Karyogamy Generally in basidiomycetes, Karyogamy occurs by clamp connection.

Mycelia The haploid nuclei migrate into basidiospores, which germinate and generate monokaryotic hyphae. The mycelium that results is called a primary mycelium. Primary mycelium Secondary mycelium Hyphae Mycelia of different mating strains can combine and produce a secondary mycelium that contains haploid nuclei of two different mating strains.

The basidiocarp bears the developing basidia on the gills Fruiting body The Basidiomycota is Holocarpic in which the entire thallus/body is converted into a Fruiting body. Eventually, the secondary mycelium generates a basidiocarp, which is a fruiting body that protrudes from the ground; this is what we think of as a mushroom. Fruiting body The basidiocarp bears the developing basidia on the gills under its cap.

Life Cycle Germination: Mycelia form. There are two mating types (+ and -). + Mating type – Mating type Mycelia (1n) Dispersal and germination Basidiospores (n) Cell division: Four basidiospores are formed. Plasmogamy: Fusion between + and – mating types results in formation of a dikaryotic mycelium. Life Cycle Basidium with four nuclei ( 1n) Meiosis: Foue haploid nuclei are formed in the basidium. Mitosis: Under the right environmental condition, a basidocarp forms. Gills of the basidiocarp contain cells called basidia. Karyogamy: Basisia form diploid nuclei. Zygote (n) Basidia Basidiocarp