Mycology L2: Fungal Cell Biology and Development
*Spitzenköper
- A dense aggregation of vesicles in growing hyphal tips -this component of the endomem sys. is unique to higher fungi (asco and basidia) -create new membrane surface through exocytosis and deliver new cell wall materials
Rice Blast
- fungal disease affecting rice. -found in 85 countries -responsible for ~30% of rice production losses= feeding 60 million people
What are the main structural components of fungal cell walls?
-Chitin microfibrils -Linear polymers of glucose (glucans) -variety of cell wall proteins (CWP; glycoproteins)
Notable differences between fungal and plant cells:
-Fungal cells lack chloroplast (fungi are heterotrophic not autotrophic) -Cell walls in fungi are made of chitin rather than cellulose
What advantages are seen when considering that fungi have chitinous cell walls?
-It is easier to digest cellulose and lignin if you aren't made of it -suggest 'recent' evolutionary link to animals
cell wall proteins
-Their sugar residues form covalent links with other cell wall polymers and help to maintain cell shape -signaling and transport functions -cell fusion -adhesion to surfaces -biofilm formation -pahtogenesis -mediate absorption of compounds
What do skeletal and binding hyphae have in common?
-They are usually empty of cell contents -just empty cell wall structures for support
septal pore cap
-a curved double membrane arching over a septal pore -formed from the endoplasmic reticulum -same role as Woronin bodies in ascomycota
Rhizomorph anatomy
-a gas filled lumen occupies the center (allows for oxygenation of tissue -surrounded by living cells produced on the exterior of the rhizomorph -young hyphae are pushed inward as they age;eventually replaced
Cell wall components: cholesterol
-aids in stabilization -provides dense organization of phospholipid bilayer -fungal cells do not have cholesterol (but has similar molecules)
What occurs following host penetration?
-biotrophic pathogens produce haustoria that absorb nutrients from the plants, and secrete virulence proteins call effectors that manipulate the host, without destroying the infected cell
**Why might turgor be important for fungal cells?
-helps fungal cells push through substrate -helps fruiting bodies free-stand
Largest organisms on earth?
-humongous fungus -Armilaria ostoyae
Boletinellus Merulioides Sclerotia
-makes sclerotia -some are solid and serve typical purpose -others are hollow and serve as homes for aphids that feed on ash--> aphids produce waste--> feeds mushrom
Historically: Sclerotia
-many thousands died in middle ages due to ergotism -causes paranoia/hallucinations, spasms, edema, vasoconstriction -misinterpretation of the symptoms may have lead to accusations of witchcraft during the salem witch trials
monolithic hyphal system
-only has generative hyphae -anything that has clamp connections
Woronin bodies
-organelles found near septet that protect the mycelium from catastrophic injury by plugging septal pores on either side of a wound
What is the role of Hyphae?
-ramifies within substrate -digest and absorbs nutrients -maximize SA for absorptive nutrition
Ergosterol
-the major cell membrane sterol found in fungi -performs a similar function to cholesterol
Why does the cytoplasm of growing yeast and mycelium contain a higher concentration of salts and sugars than the surrounding fluid?
-this allows for an osmotic differential to drive the net influx of water through the plasma membrane and cause cell expansion -maintain turgor
Amphotericin B and Terbinafine hydrochloride
-used to target ergosterol synthesis -lyses fungal cells
generative hyphae
-usually still alive and bear spores
Rhizomorph importance
-wood rotting fungi -resources may be separated by relatively great distances and spatial nutrient scavenging is important
dolipore septum
A septum which flares out in the middle portion of a hypha, forming a barrel-shaped structure with open ends. Characteristic of some Basidiomycetes.
Example of a genus that uses rhizomorphs:
Armilaria spp.
What is an example of a trimitic fungi?
Artists conk ganoderma applanatnum
why do basidiomycetes produce a clamp connection?
Because nuclei cannot migrate due to the dolipore septa
Why do biomolecules not passively diffuse through the membrane?
Because they are found in much higher concentrations inside the cytoplasm
Why are ion transport functions catalyzed by transmembrane proteins critical for understanding fungal physiology and energy acquisition?
Because they are heterotrophs that feed via EXTERNAL digestion (mostly)
Vacuoles are capable of:
Extension, retraction, and peristaltic shape changes
ToF: There is a significant division of tissue in fungi
False -Not much tissue differentiation in fungi, just different configurations of hyphae
ToF: Nuclei can migrate freely in basidiomycetes
False -due to the dolipore septa -This is why these fungi produce clamp connections as cells divide following fusion of compatible mycelia
ToF: nuclei form the largest endomembrane compartments
False Vacuoles do
ToF: the electrochemical gradient established by the proton ATPase activity is unrelated to absorptive feeding
False the electrochemical gradient is vital due to its power to aid in the import small molecules like sugars and amino acids
secondary active transport
Form of active transport which does not use ATP as an energy source; rather, transport is coupled to ion diffusion down a concentration gradient established by primary active transport.
Osmolytes
Organic compounds that affect osmosis
What makes polypores so tough?
Skeletal and binding hyphae
Binding hyphae
Sometimes thick-walled, tremendously and frequently branched
ToF: in filamentous ascomycete, the septa are perforated by a single pore, allowing the movement of material and organelles such as ribosomes, mitochondria, and nuclei
TRUE
ToF: mushroom caps and stems are built from thin-walled hyphae that differs only in diameter, spacing of septa, and frequency of branching
TRUE
ToF: primordial of basidiomata have differentiated tissue regions at very small stages
TRue
Why are septa important?
This process allows differentiation of mycelium into compartments that assume specialized functions in survival and reproduction
ToF: hyphal branches fuse with one another to form highly interconnected networks or webs
True
ToF: the cell wall is constantly being built in front of the expanding hyphal tip
True
ToF: beyond the primordial stage, the majority of growth is the result of elongation and expansion of pre-differentiated cells of primordium
True! -expansion is due to rapid water uptake
Dry rot
When timber (treated wood) is subject to decay and attack by fungus.
dimitic
a mushroom that posses generative and one other type of hyphae
Chitin
a polysaccharide composed of N-acetylglucosamine (a derivative of glucose)
Why are Amphotericin B and Terbinafine hydrochloride harmful to fungal cells but not our own?
because we don't posses ergosterol in our cell membranes so our cells aren't lysed
Clavicep purpurea
causes ergot on rye
Anastomoses
connection between hyphae -provide pathways for bulk flow of cytoplasm and regulated movement of organelles -can be seen in the hymenophore of some chanterelles
Ergot
elongated sclerotia -produced by claviceps
effector proteins
emitted by haustoria when inside a host to avoid pathogenic detection
primordia
fruit bodies beginning as small knots of branched hyphae
Rhizomorphs
fungal mycelia that have the shape of roots; transport water to other parts of the same mycelium
What are the three main types of hyphae?
generative skeletal binding
Sclerotia
hardened masses of hyphae containing food reserves (lipid and glycogen) that serve as survival structures for ascomycete and basidiomycetes -associated with over-wintering
endomembrane system organelles function:
in the secretory (export) and endocytotic (import) pathways that sustain fungal growth and development -within their endomembrane systems they have a collection of organelles that are not found in other organisms in the hyphal tips
Appressoria
inflated cells produced by plant pathogens on the leaf surfaces of their hosts -use high pressure to penetrate cell wall
skeletal hyphae
long, unbranched, thick walled hyphae
parenthosome
membrane between pore found in a dolipore septa -much finer filter when compared with ascomycete cells
pseudoparenchyma
oval or isodiametric fungal cells organized into tissues whereby individual hyphae cannot be distinguished
Vacuole function:
passive transport, storage of waste products/toxic substances -turgor
Startch and cellulose
polysaccharides composed of glucose monomers -Starch (1-4 linkage of alpha) -Cellulose (1-4 linkage of beta)
trimitic
posses generative, skeletal, and binding hyphae
isodiametric
round (cells)
Haustoria
specialized hyphae that allows an organisms to penetrate the interior of host cells
septa/septum
the cells that make up hyphae are divided by these cross sections
endomembrane system
the network of membranes connected either directly or indirectly -nuclear envelope, endoplasmic reticulum, golgi apparatus
Sclerenchyma (plants)
type of ground-tissue cell with an extremely thick, rigid cell wall that makes ground tissue tough and strong -similar to skeletal and binding hyphae
