Post on 17-Jan-2016
transcript
Kingdom Fungi
Introduction
High points - beer, other fermented beverages, leaven bread, antibiotics
Low points - athletes foot, jock itch, that pink stuff that grows on your shower curtain
Fungi are ubiquitous = present in air, water, soil and organisms, or on organism surfaces.
Fungi are very diverse (many different species) Vary in size from invisible yeasts, (only
several microns in diameter), to extremely large polypores, (may grow up to several meters in diameter).
Where are fungi found?
Classification
Once classified as plants Significant differences in structure,
life cycle and nutrition have earned them their own Kingdom
Fossils resembling fungi date back about 900 million years
~570 mya diverged from plants Became heterotrophic
Modern fungi evolved ~300 mya
What have mycologists found?
Botanists who study fungi have defined the members of this kingdom based on the following:
Decomposers Can break down almost
any organic compound including plastics
Human benefits = yeast (bread/wine/beer); penicillin (antibiotics); flavour; food items
Fungi Structures
Although diverse in species as well as in form, fungi share some common characteristics.
Fungi are eukaryotic organisms.
Compared to other eukaryotic plants or animals, fungi have relatively very small nuclei.
Distinctive fungal features
Fungi are heterotrophs. Fungi have several cell types. Some fungi have a dikaryon stage.
Two haploid cells coexisting in a single cell (dikaryon) before fusion to form nucleus (diploid)
Fungi have cell walls that include chitin. Fungi undergo nuclear mitosis.
During mitosis, the nuclear membrane does not breakdown, mitosis occurs in the nucleus
Fungi Nutrition
Fungi live heterotrophically as saprophytes, parasites or mutualists.
Fungi secrete digestive enzymes onto a food source nearby, dissolve it to smaller soluble molecules and then ingest them into cells.
How Fungi Obtain Nutrients
All fungi obtain food by secreting digestive enzymes and then absorbing the organic molecules produced (external digestion). extensive hyphae network provides
enormous surface area for absorption many fungi able to break
down cellulose in wood
Structures
The Body of a Fungus
Fungi exist mainly in the form of slender filaments (hyphae). long chains of cells joined
end-to-end divided by cross-walls (septa)rarely form complete
barriercytoplasm freely streams
in hyphae mycelium - mass of
connected hyphaegrows through and
penetrates substrate
Fungi Structures cont’d
Most fungi consist of hyphae, which may or may not have cross walls separating individual cells.
The hyphae combine to make up the fungal mycelium.
The Body of a Fungus
Fungi cell walls are formed of polysaccharides and chitin. not cellulose like those of plants gives strength and support to the fungi
cells. Mitosis is unique.
nuclear envelope does not break down and re-form
spindle apparatus formed within spindle plaques take place of centrioles
Classification
Four Major Groups of Fungi
Four major groups: Chytridiomycota Zygomycota Basidiomycota Ascomycota
Chytridiomycota
aquatic, flagellated fungi most closely related to ancestral fungi
Basidiomycota
Zygomycota (the conjugation fungi)
Ascomycota
Zygomycota
includes common bread molds produces temporarily dormant
zygosporangia sexual reproduction occurs by
fusion of gametangia asexual reproduction most common
hyphae produce clumps of erect stalks - sporangiophores
form sporangia
Zygomycota
Bread Mold
Division Zygomycota – Rhizopus stolonifer
Basidiomycota
Most familiar fungi (mushrooms, toadstools, puffballs, rusts, and smuts) named for characteristic sexual
reproductive structure, basidium Four haploid products of meiosis
incorporated into basidiospores Mycelium made up of monokaryotic
hyphae is called primary mycelium. fusion of different mating types forms
dikaryotic, secondary mycelium.
Basidiomycota
Mushroom parts
Cap (Pileus) - The top part of the mushroom.Cup (Volva) - A cup-shaped structure at the base of the mushroom. The
basal cup is the remnant of the button (the rounded, undeveloped mushroom before the fruiting body appears). Not all mushrooms have a cup.
Gills (Lamellae) - A series of radially arranged (from the center) flat surfaces located on the underside of the cap. Spores are made in the gills.
Mycelial threads - Root-like filaments that anchor the mushroom in the soli.
Ring (Annulus) - A skirt-like ring of tissue circling the stem of mature mushrooms. The ring is the remnant of the veil (the veil is the tissue that connects the stem and the cap before the gills are exposed and the fruiting body develops ). Not all mushrooms have a ring.
Scales - Rough patches of tissue on the surface of the cap (scales are remnants of the veil).
Stem (Stape) - The main support of the mushroom; it is topped by the cap. Not all mushrooms have a stem.
Ascomycota
Very large group including yeasts, common molds, and morels
Named for reproductive structure ascus haploid zygotic nucleus formed within asci differentiated with ascocarp
Asexual reproduction takes place in conidia spores at the end of conidiophores.
Ascomycota
Ascomycota
Yeasts unicellular - most reproduction is
asexual and takes place by cell fission or budding
ferment carbohydrates play a leading role in genetic research
How Fungi Reproduce
Differ from most animals and plants in that each compartment of hypha can contain one, two or more nuclei monokaryotic - each compartment has a
single nucleus dikaryotic - two distinct nuclei within
each hyphae compartment
How Fungi Reproduce
Possible for many nuclei to intermingle in common cytoplasm of fungal mycelium which can lack distinct cells heterokaryotic – dikaryotic or
multinucleate hypha has nuclei from genetically distinct individuals
homokaryotic – hyphae whose nuclei are genetically similar to one another
REPRODUCTION
Many fungi can reproduce both asexually and sexually.
Asexual Reproduction produces offspring that are
genetically identical to the parent, is most common when nutrients and water are abundant.
Sexual Reproduction occurs in fungi mostly when nutrients or water become scarce.
How Fungi Reproduce
Fungi reproduce sexually after two hyphae of opposite mating type fuse.
in some fungi fusion two haploid cells immediately results in diploid cell (2n)
basidiomycetes and ascomycetes have dikaryotic stage (1n + 1n) before parental nuclei fuse to form diploid nucleus
Reproduction
Spore production
How Fungi Reproduce
Spores most common means of reproduction may form from asexual or sexual
processes most often dispersed by wind but some
spread by insects or other small animals chytrids only group to retain ancestral
flagella and motile zoospores
Asexual Reproduction
Yeasts, which are unicellular and grow reproductively by some type of budding or fission, are an exception.
Fungi can reproduce sexually or asexually by producing spores that grow hyphae.
Fungi may also reproduce by fragmentation
Growth Hyphae increase length by Cellular Growth and Division
at the TIP. As the hyphae grow, the size of the mycelium increase.
Fungi growth is rapid since all the hyphae in a mycelium share the same cytoplasm.
Septa may or may not divide the cytoplasm of the hypha.
Since materials can move quickly through the whole mycelium and are available to the growing hyphae, rapid growth occurs.
Ideal Growth Conditions:WarmDarkMoist
Growth cont’d
Several species of Fungi are able to change their form in response to change in their environment. For example, Histoplasma capsulatum, which
causes a severe disease in humans that can resemble tuberculosis, normally grows as mycelium on the ground, but when it invades a human, the increased temperature and available nutrients causes the fungus to grow unicellular like a Yeast.
This ability to change is called DIMORPHISM
(die-MOR-FIZ-uhm)
Ecology of Fungi
Mutualistic associations lichens - fungi and green algae mycorrhizae - fungi and plant roots
Mycorrhizae (fungi living symbiotically with plant roots)
Lichens (fungi living symbiotically with cyanobacteria)
Pioneer species Don’t require substrate
for Anchorage Nutrient supply
Can survive extreme environmental conditions
Temperature dryness
Lichens
Lichens are symbiotic associations between a fungus and a photosynthetic partner. usually ascomycetes
Specialized fungal hyphae penetrate photosynthetic cells and transfer nutrients to fungal partner.
Durable fungus, combined with photosynthetic properties, has enabled lichens to invade harsh climates.
extremely sensitive to pollutants
Mycorrhizae
Roots of about 90% of all kinds of vascular plants are involved in mutualistic symbiotic relationships (mycorrhizae). arbuscular mycorrhizae - fungal
hyphae penetrate outer cells of plant root
most common ectomycorrhizae - hyphae surround,
but do not penetrate, cell walls of roots
Mycorrhizae
Endophytes
Endophytic fungi live inside plants in the intercellular spaces. some may protect their hosts from
herbivores by producing chemical deterrents
Mutualistic Animal Symbioses
A range of mutualistic fungal-animal symbioses has been identified. Ruminants – fungi in gut – release
enzymes leaf-cutter ants – fungal gardens
Fungal Parasites and Pathogens
Chytridiomycosis - emergent infectious disease in amphibians chytrid Batrachochytrium dendrobatidis
Aflatoxins - carcinogenic compounds produced by strains of Aspergillus flavus grows on corn, peanuts, cotton seeds
Metabolic Pathways
Anaerobic fermentation provides flavor for wine and cheese.
Biochemical manufacturing of organic substances food pharmaceuticals
Yeasts break down carbon-containing products. bioremediation
Ecology of Fungi
Fungi and bacteria are the principal decomposers in the biosphere. mineral cycling
Fungi are virtually the only organisms capable of breaking down lignin.
Fungi often act as disease-causing organisms for both plants and animals. agricultural damage human health
Websites (resources)
http://www.sirinet.net/~jgjohnso/fungi.html
http://www.rogers.k12.ar.us/users/ehutches/2fungi.phtml
http://www.uwlax.edu/biology/volk/fungi3/sld001.htm
Summary Quiz
1. The body of a fungus is made of ___________________. 2. The cell wall of each hyphae contains _______________.3. Mushrooms and toadstools are types of _____________. 4. Fungi reproduce _____________________. 5. There are _____________________ divisions of fungi. 6. Fungi are _____________________. 7. Most fungi are _____________________. 8. Most fungi feed by _____________________. 9. Bread mold is a type of _____________________. 10. Division of fungi that includes yeast: ________________11. Division of fungi that includes mushrooms:
___________12. Division of fungi that does not have a sexual stage
known: ___________________________