About "Fungal" Thalli- a review




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About "Fungal" Thalli- a review:

Fungi characterized by a distinctive, multinucleate, vegetative 


(somatic) thallus (body) called

the mycelium (singular)


      mycelia (plural)

The mycelium consists of a branching system of walled tubes called



hyphae (plural)
hypha (singular)

Mechanisms of hyphal growth* are 

apical extension & lateral branching.

* non reproductive growth

Not only unit of structure, as many fungi and fungal-like protists 
are nonhyphal organisms

Better to refer to vegetative body of a fungus as a thallus



Thallus types



Holocarpic vs Eucarpic

A. Holocarpic (Holocarpism)

Whole thallus of fungus becomes converted into a reproductive cell*

Found among:

1. Chytridiomycota

2. Hyphochytridiomycota

3. Plasmodiophoromycota

4. Oomycota

5. Ascomycota

6. Basidiomycota**

7. Fungi imperfecti

* "simplest thalli"

** if stretch definition 64

a. S. cereviseae - Hemiascomycotina



b. Synchytrium - Chytridiomycota



65

Eucarpic (Eucarpism) Thallus

- differentiates into distinct vegetative and reproductive portions

- found among all divisions

trends to complexity (hyphal construction)

1. Monocentric (monocentrism)

Thallus consists of single reproductive cell attached to


substrate hyphae

Chytridiomycota


Oomycota
Hyphochytridiomycota
2. Polycentric (polycentrism)*

Thallus has many reproductive centers**

Simplest or at least step above Chytridiomyces might be Nowakowskiella***

Extensive rhizoidal system with many sporangia



* most "fungi" eucarpic & polycentric

* all groups except plasmodiophoro-mycota

*** Chytridiomycota 67/69

Blastocladiella*

*Chytridiomycota

70

Hyphal "fungi" (obvious hyphae) found among:




Septation Trends

Tend to be coenocytic*

1. Chytridiomycota

2. Oomycota

Tend to be coenocytic or irregularly septate

3. Zygomycota

Tend to be regularly septate

4. Ascomycota

Hemiascomycotina

Euascomycotina


5. Basidiomycota

Heterobasidiomycotina

Homobasidiomycotina


6. Fungi Imperfecti

Hyphomycetes

Coelomycetes

Mycelia Sterilia


* coenocytic/coenocynism = growth and nuclear division w/o cytokinesis

73

Septal conditions in "fungi"*




Fungal-like protists and Chytridiomycota

tend to be aseptate except to delimit reproductive cells (e.g. sporangia, gametagia)
septa when formed "complete" (no pores)

Zygomycota

tend to be aseptate or have septa formed at irregular intervals in their hyphae (septa when formed "complete")

Ascomycota & basidiomycota yeasts

tend to form complete septa or micropore septa between mother and daughter cells

* Fungi includes fungal-like protists and Chytridiomycota

74

Septa of hyphal Ascomycota and Basidiomycota


Ascomycota

tend to form hyphal septa at regular intervals
septa are "simple septa" with a central septal pore & Woronin bodies

Basidiomycota

tend to form hyphal septa at regular intervals
septa are "dolipore" or "pulley wheel" type with central pore, parthenosome membranes or pulley wheel plug.

77


Review - "fungal" thalli/thallus
Appear to be trends in fungal vegetative and reproductive structure (thallus) from simple --> complex -->(?) simple. These may be evolutionary trends.
Holocarpic - whole vegetative thallus converted to reproductive center
Eucarpic - separation of vegetative &reproductive function

79

"Fungal" nuclear conditions
1. Most nonyeast "fungi" multinucleate, whereas most "yeasts" uninucleate
2. Among fungi there are haploids and diploids

a. Majority of "fungi" vegetative haploids

b. Oomycota vegetatively diploid

c. Some "fungi" alternate haploid and diploid phases

d. Some members of predominantly haploid groups are vegetatively diploid
Haploidy = 1 set of chromosomes per nucleus

Diploidy = 2 sets of chromosomes per nucleus


3. Terms associated with genetics of multinucleate "fungi"

a. Homokaryotic/homokaryons

b. Heterokayotic/heterokaryons

c. Monokaryotic/monokaryons

d. Dikaryotic/dikaryons

5-17/6-3
Nuclear conditions related to multinucleate states of fungi


1. Homokaryons - multinucleate forms with all nuclei genetically identical [or at least identical with regard to gene(s) in question]
2. Heterokaryons - multinucleate forms with genetically different nuclei coexisting in the same cytoplasm
3. Dikaryons - specialized heterokaryons in which nuclei having different mating-type gene(s) co-existing in the same cytoplasm
4. Monokaryons - homokaryons or heterokaryons having only one mating-type gene(s) set.
5. Exact perpetuation of the dikaryotic condition occurs in some higher fungi.
a. In many Euascomycotina by crozier formation*
b. In some Heterobasidiomycotina and some Homobasidiomycotina by clamp formation **
*immediately prior to ascus production.
**during normal hyphal growth of dikaryons.

79/81b



Differences between:
homokaryons and heterokaryons

vs

homozygotes and heterozygotes


Former usually refer to haploid condition, whereas latter to the diploid condition*
Phenotypic results could be the same.
Dikaryotic condition very unique because usually opposite mating type nuclei fuse.
*However could refer to diploids too.

80

Uninucleates vs multinucleates
1. Uninucleates

2. Multinucleates (haploid nuclei)


81a




Review - ploidy and nuclear conditions in fungi

1. Majority of fungi are vegetatively haploid, but some are vegetatively diploid totally or in part.


2. Majority of fungi are vegetatively multinucleate in total or in part, but some are vegetatively uninucleate.
3. Multinucleate fungi with genetically identical nuclei are homokaryons, whereas those with genetically different nuclei are heterokaryons.
4. Multinucleate fungi with opposite mating-type nuclei are dikaryons.
5. Exact perpetuation of the dikaryotic condition occurs in some higher fungi.
a. in many euascomycotina by crozier formation*
b. in some heterobasidiomycotina and some homobasidiomycotina by clamp formation**
*immediately prior to ascus production.
**during normal hyphal growth of dikaryons.


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