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Introductory Mycology – Cell Structures

Introductory Mycology – Cell Structures. What are fungi?. Eukaryotic, spore-bearing, heterotrophic organisms that produce extracellular enzymes and absorb their nutrition. Body Plan. unicellular ( yeast ), filamentous, or both (=dimorphic)

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Introductory Mycology – Cell Structures

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  1. Introductory Mycology – Cell Structures

  2. What are fungi? • Eukaryotic, spore-bearing, heterotrophic organisms that produce extracellular enzymes and absorb their nutrition.

  3. Body Plan • unicellular (yeast), filamentous, or both (=dimorphic) • Hypha (pl. hyphae) is the basic “cellular” unit in filamentous fungi; they may be septate or coenocytic (aseptate); collectively a mycelium • limited tissue differentiation and division of labor • somatic & reproductive structures • plectenchyma: all organized fungal tissue, somatic & reproductive

  4. Fungal nuclei • 1--3 m diam • 3--40 chromosomes • Up to 13--40 Mb (million base pairs) DNA coding for 6,000 to 13,000 genes • Intranuclear division--nuclear envelope remains intact during mitosis (unlike plants and animals)

  5. Fungi as model organisms • Small genome relative to other eukaryotes • Many fungal genes are homologous to those in other eukaryotes • Easy to grow, short life cycles • Haploid genomes amenable to mutation • Sexual stage for analysis of segregation and recombination of genes; all products of meiosis can be retrieved in haploid spores • Asexual (clonal) reproduction

  6. Beadle and Tatum Using the common bread mold Neurospora crassa, in 1941 developed the classic concept of “one gene, one enzyme” Awarded Nobel Prize in 1945

  7. Nuclear Status • Eukaryotic; uni, bi- or multinucleate • Haploid, diploid (less frequent) • Monokaryon (1 nucleus per hyphal compartment) • Dikaryon (2 nuclei per hyphal compartment) • Homokaryotic • Heterokaryotic

  8. Mitosis • intranuclear: nuclear membrane doesn't breakdown during mitosis • centric in flagellated forms; typical centrioles of eukaryotes • noncentric in nonflagellated forms; possess spindle pole bodies (SPBs); differ from centrioles in lacking microtubular component

  9. Organelles • typical eukaryote assemblage of organelles + fungal specific ones • mitochondria • endoplasmic reticulum • Golgi equivalents single cisternal elements • vacuoles • microbodies funx in fatty acid degradation, N metabolism

  10. Other organelles • Mitochondria—flattened or plate-like mitochondrial cristae in Fungi (similar to animals) • Golgi bodies—consist of a single, tubular cisternal element (stacked, plate-like cisternae in animals and plants) • Other types: • ribosomes, endoplasmic reticulum, vacuoles, lipid bodies, glycogen storage particles, microbodies, microtubules, vesicles

  11. Cell Wall Chitin • well defined • chitin 1-4 n-acetyal glucosamine • -glucans polymers of glucose 1-3 glucose • cellulose in some 1-4 glucose Cellulose  1-3 glucan chitin -glucans

  12. Fungal cell wall composition • Structural components: • chitin microfibrils [ß(1-4)-linked polymer of N-acetylglucosamine] • chitosan in Zygomycota [ß(1-4)-linked polymer of glucosamine] • ß-linked glucans • Gel-like components: • Mannoproteins (form matrix throughout wall

  13. Other cell wall components Antigenic glycoproteins, agglutinans, adhesions—on cell wall surface Melanins—dark brown to black pigments (confer resistance to enzyme lysis, confer mechanical strength and protect cells from UV light, solar radiation and desiccation) Plasma membrane—semi-permeable

  14. fungal specific organelles involved in cell wall growth • Spitzenkorper or vacuole • associated with growing hyphal tips in septate fungi • chitosome • microvesicles transporting chitin synthases to growing cell wall

  15. Nutrition • Heterotrophic • Secrete extracellular enzymes • Absorptive nutrition • Saprobes: decay dead organic matter • pathogens: biotroph, necrotroph • symbionts: parasites - commensals - mutualists

  16. Spores - a minute propagative unit functioning as a seed, but differing from it in that a spore does not contain a preformed embryo Fruiting body - any complex fungal structure that contains or bears spores; a sporocarp

  17. Reproduction • Sexual reproduction: spores meiotically derived nuclei • Homothallic (selfing) • Heterothallic (outcrossing) • Genetic mating system • MAT loci • 1 to hundreds of “sexes” • Asexual reproduction • Spores with mitotically derived nuclei

  18. Fungal Reproduction • Many fungi have the ability to reproduce by asexual and sexual means

  19. Asexual Reproduction in Fungi • Fragmentation – hyphae simply break off. • Budding – small outgrowth of hyphae pinches off • Formation of spores • Sporangiospores: produced in sporangia (sac-like structures) located on a sporangiophore. • Conidiospores: produced at the tips of specialized hyphae

  20. Fungal reproduction • Anamorph= asexual stage • Mitospore=spore formed via asexual reproduction (mitosis), commonly called a conidium or sporangiospore • Teleomorph= sexualstage • Meiospore=spore formed via sexual reproduction (e.g., resulting from meiosis), type of spore varies by phylum

  21. Kingdom Fungi • Phyla: • Zygomycota • Form asexual spores called sporangiospores • Meiosis occurs in zygospore • Ascomycota (including Deuteromycetes) • Form asexual spores called conidia • Meiosis occurs in ascus • Basidiomycota • Meiosis occurs in basidium

  22. Fungal life cycles • The vegetative thallus predominates in the life cycle of a fungus • The thallus may be haploid (1n), dikaryotic (n+n) or diploid (2n) in different groups of fungi • Ploidy of thallus is determined by the timing of these events in the life cycle: • Plasmogamy (cell fusion) • Karyogamy (nuclear fusion) • Meiosis (reduction division)

  23. Misc. • Life cycle: simple to complex; wide variety • Sporocarps: microscopic or macroscopic, limited tissue differientiation • Habitat: ubiquitous • Studied by mycologists!!!!!!

  24. n n+n Plasmogamy n+n 2n Karyogamy Fungal life cycles mitosis Life cycle is predominantly haploid (n) 2n n Meiosis

  25. n + n 2n Karyogamy 2n n Meiosis Fungal life cycles mitosis Life cycle is predominantly dikaryotic (n + n) n n + n Plasmogamy

  26. 2n n Meiosis n n + n Plasmogamy Fungal life cycles mitosis Life cycle is predominantly diploid (2n) n + n 2n Karyogamy

  27. What are fungi? • Eukaryotic, spore-bearing, heterotrophic organisms that produce extracelluar enzymes and absorb their nutrition.

  28. Fungi vs. "fungi" • Based on the phenotypic definitions or traits attributed to fungi, fungi do not comprise a single monophyletic group of organisms • more than one evolutionary origin • not all "fungi" are members of the Kingdom Fungi

  29. Some characters that separate the the Kingdom Fungi from “protistan fungi” Kingdom Fungi Protistan fungi mitochondria: cristae flattened cristae tubular motile cells: no motile cells or motile cells with anterior posterior flagellum or lateral heterokont flagella cell wall carbohydrate: glucans, chitin glucans, cellulose lysine biosynthesis: alpha-aminoadepic acid (AAA) diaminopimelic (DAP) storage compound glycogen mycolaminarins sterols ergosterol fucosterol Phyla: Chytridiomycota Oomycota (emphasized Zygomycota Myxomycota in class) Glomeromycota Dictyosteliomycota Basidiomycota Ascomycota

  30. General characteristics of the Phyla of the Kingdom Fungi • basal lineages • Zygomycota: (1000) • generally coenocytic mycelium • production of zygosporangia & zygospores • no sporocarp production

  31. Basidiomycota: (22500) • septate mycelium • clamp connections • complex dolipore septa • dikaryotic, haploid mycelium • production of exospores (basidiospores) on a basidium • production of complex sporocarps • Ascomycota: (35000) • septate mycelium • simple septa • monokaryotic, haploid mycelium • production of endospores (ascospores) • in an ascus • production of complex sporocarps • often dominant asexual reproduction

  32. Nomenclature Amanita muscaria Kingdom - Fungi Phylum - Basidiomycota Class - Hymenomycetes Order - Agaricales Family - Amanitaceae Genus - Amanita Species - A. muscaria

  33. Medically important fungi are in four phyla: • Ascomycota - Sexual reproduction in a sack called an ascus with the production of ascopspores.( Aspergillus, Blastomyces dermatidis, Histoplasma capsulatus) • Basidiomycota -Sexual reproduction in a sack called a basidium with the production of basidiospores.( Cryptococcus neoformans) • Zygomycota - sexual reproduction by gametes and asexual reproduction with the formation of zygospores.( Rhizopus, Mucor) • Deuteromycota(Fungi Imperfecti \Mitosporic Fungi) - no recognizable form of sexual reproduction. Includes most pathogenic fungi ( Sporothrix, Coccidioides immitis, Candida, Pneumocystis).

  34. Introductory Mycology- Cell Structure

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