华中农业大学：《微生物学》课程教学课件（PPT讲稿，英文版）Chapter 4 Eukaryotic Microorganisms

Chapter 4 Eukaryotic Microorganisms

Chapter 4 Eukaryotic Microorganisms

Eukaryotic Microorganisms Molds Mushrooms Fung Yeasts Algae Protozoa

Molds Mushrooms Fungi Yeasts Algae Protozoa Eukaryotic Microorganisms

Major differences among fungi, algae and protozoans FUNGI ALGAE PROTOZOANS 构cn Protista and Protista Plantae Rum tanel type Chemaheerolroph Photoautotroph Cnemcheterotrcoh ACellar All, except yeasts Some None Cular Unicellular Unoalluar, Unicellular arrarporen filamentous fleshy such ss filamentous: mUSIroonit trues Fend aceton AbsorptivE ADeorpwe Absorptive cytosome hergcenetc Serunl and Parents Moity, some laures Asexual spore arm cyts Entre None Some N

Major differences among fungi, algae and protozoans

Fungi are heterotrophic eukaryotic microorganisms They are nonphotosynthetic and typically form reproductive spores Algae are phototrophic eukaryotes that contain photosynthetic pigments within a structure called the chloroplast Protozoa are animallike protists exhibiting heterotrophic nutrition and they can be defined as usually motile eukaryotic unicellular microorganisms

Fungi are heterotrophic eukaryotic microorganisms. They are nonphotosynthetic and typically form reproductive spores. Algae are phototrophic eukaryotes that contain photosynthetic pigments within a structure called the chloroplast Protozoa are animallike protists exhibiting heterotrophic nutrition and they can be defined as usually motile eukaryotic unicellular microorganisms

Fung The morphology Reproduction Classification Typical species

The morphology Reproduction Classification Typical species Fungi

Fungl 1. Filamentous fungi 2. Unicellular fungi

Fungi 1. Filamentous fungi 2. Unicellular fungi

The morphology of filamentous fungi The filamentous fungi consists of two pats: the mycelium and the spores The filamentous fungi develop multicellular branching structures known as hyphae, which are connected filaments of vegetative cells. Integrated masses of hyphae are called a mycelium Each hypha is about 5-10 um wide

The morphology of filamentous fungi The filamentous fungi consists of two pats: the mycelium and the spores. The filamentous fungi develop multicellular branching structures known as hyphae, which are connected filaments of vegetative cells. Integrated masses of hyphae are called a mycelium. Each hypha is about 5-10 um wide

(Nonseptate 2)septate

(1)nonseptate; (2)septate

Reproduction Asexual spores are formed by the aerial mycelium of one organism. When these spores germinate, they become organisms that are genetically identical to the parent Sexual spores result from the fusion of nuclei from two opposite mating strains of the same species of fungus Organisms that grow from sexual spores will have genetic characteristics of both parental strains

Reproduction Asexual spores are formed by the aerial mycelium of one organism. When these spores germinate, they become organisms that are genetically identical to the parent. Sexual spores result from the fusion of nuclei from two opposite mating strains of the same species of fungus. Organisms that grow from sexual spores will have genetic characteristics of both parental strains

Asexual Spores Asexual spores are produced by an individual fungus through mitosis and su bsequent cell division there is no fusion of the nuclei of cells. Several types of asexual spores are produced by fungi

Asexual spores are produced by an individual fungus through mitosis and subsequent cell division; there is no fusion of the nuclei of cells. Several types of asexual spores are produced by fungi. Asexual Spores