NAME:
EXAM 3- General Mycology 427/527
(FOR 2012 Class: Remember that this exam will cover from the Zygomycota through the Basidiomycota, including the mycotoxin lecture by Dr. Cotty.)
Multiple
Choice:
Circle
all the correct answers. There may
be more than one correct answer.
(0.5 points for each correct answer)
1. The
general life cycles of the Zygomycota and Ascomycota share the following
features:
a. their hyphae is haploid
b. their hyphae is diploid
c. the diploid stage is limited to a
single cell that does not undergo mitosis division
d. plasmogamy may be by gametangial
copulation (fusion)
e. hyphal anastomosis
2. The
Zygomycota (Z) are thought to be more closely related to the Chytridiomycota
(C) than to the Ascomycota and Basidiomycota. This may be because
a. they (Z) and (C) both produce
sporangiospores
b. they (Z) and (C) contain cellulose as
the fibrous component of their cell wall
c. like the Chytridiomycota, those that
have hyphae are coenocytic
d. like the Chytridiomycota they produce
motile asexual spores
e. the Ascomycota and Basidiomycota rely primarily on aerial spore dispersal, which the Zygomycota do not use
3. The
Entomophthorales differ from the other orders of the Zygomycota because
a. their sporangium is forcibly discharged
with the sporangiospores inside
b. some members of the order are human
pathogens
c.
they have septate hyphae
d.
they are obligately associated
symbionts with many plant species
e.
they reproduce asexually by conidia
4. Plasmogamy
in the Ascomycota may occur by
a. planogametic copulation
b. fusion of two cells
c. nuclear fusion in the ascus mother cell
d.
contact between a spermatium and
an ascogonium
5. An
ascocarp is
a.
a sac-like structure that contains ascospores
b. composed of dikaryotic mycelium
c.
composed of haploid mycelium
d.
a sexual fruiting structure of the Ascomycota
6. The
order Taphrinales, of the Hemiascomycetes, differ from the other order, the
Endomycetales because the Taphrinales
a. usually produce 1000 ascospores per
ascus
b. are plant parasites
c. have a dikaryotic hyphal stage
d. have naked asci
7. Asexual
growth of Saccharomyces cerevisiae
can involve
a. budding
b. hyphal growth
c. haploid cells
d. diploid cells
e. mitosis
8. The
size of the form-Phylum Deuteromycota is decreasing because
a.
some of these fungal species are evolving sexual stages
b.
as sexual stages are being associated with their anamorph stages, species are
being reclassified into either the Ascomycota or Basidiomycota
c. their habitat is decreasing forcing
many into extinction
d. molecular phylogenetics are allowing
species to be reclassified into the Ascomycota or Basidiomycota based on DNA
sequence similarities
9. The
Form-Class Coelomycetes of the Deuteromycota
a. do not produce conidia and are known as
the Mycelia sterilia
b. produce sporangiospores inside an acervulus
c. produce conidia in fruiting bodies
d. are those mycelial fungi that do not
make asexual fruiting bodies
e. is sub-divided into form-orders based
on whether species make a
pycnidium or an acervulus
10. Saccardo designed
a system around 1900 to classify many species of the Deuteromycota based on
a. mode of conidium development
b. spore shape
c. the number and arrangement of cells in
a conidium
d. conidial pigmentation
e. presence or absence of a yeast-like
stage
11. The
Hughes-Barron system that was considered an improved method to categorize many
of the Deuteromycota species is based on
a. mode of conidium development
b. spore shape
c. the number and arrangement of cells in
a conidium
d. conidial pigmentation
e. presence or absence of an ascocarp
12. The
genus Aspergillus
a.
is named because its conidiophore looks like a holy water sprinkler
b.
has a species that is used for the production of citric acid which is in many
foods we eat
c.
is responsible for flavoring and ripening roquefort and camembert cheese
d.
produces the deadly toxin, aflatoxin
13. The
Homobasidiomycetes
a. are those basidomycetes whose
basidiospores are self-fertile
b. is an order of the Basidiomycota that
includes the mushrooms
c. are those basidiomycetes which have
single-celled basidia
d. includes the gilled mushrooms, the
puffballs, and the stinkhorns
e. those basidiomycetes that lack a
hymenium and produce their basidia in a gleba
14. Clamp
connections are
a. hyphal bridges formed between adjacent
cells during cell division in homokaryons of the Basidiomycota
b. formed during mitosis in most
Basidiomycota dikaryons
c. not found in the rusts (Uredinales)
d. structures that allow the passage of
the contents of the male gametangium into the female gametangium
e. a hyphal structure that allows
maintenance of the dikaryon
15. The number of
ascospores per ascus may vary between 1 and 1000 thousand
a. because there may be single or multiple
rounds of meiosis per ascus
b. the statement in the question is false
c. depending on how many rounds of mitosis
occur after meiosis
d. but is always the same within a class
of the Ascomycota
16. The Uredinales
(rusts) and Ustilaginales (smuts) differ from the other Basidiomycota by
a. the formation of a thick-walled
teliospore in which karyogamy occurs
b. their lack of ballistospores
c. the lack of a basidiocarp
d. all having complex life cycles often
with two hosts and five spore stages
e. having meiosis take place in a
metabasidium which forms on the teliospore
17. The Uredinales
differ from the Ustilaginales because they
a. have a simpler life cycle involving one
host instead of often two, for the Ustilaginales
b. lack clamp connections in their life
cycle
c. produce teliospores within a host
organ, like a seed, often replacing the contents of that organ
d. undergo plasmogamy in a spermogonium
e. are obligate plant pathogens for their
whole life cycle
18. The
Jelly fungi
a. are those Hemiascomycetes, which grow
on plant exudates with a high sugar content (such as jam or jelly)
b. are Heterobasidiomycetes which are
gelatinous in appearance when wet.
c. are capable of dehydrating and
rehydrating as environmental conditions change
d. is the common name for one order, the
Phallales, in the class Homobasidiomycetes because of their gelatinous gleba
19. An
ascus mother cell and a basidium are similar because
a. meiosis occurs in these cells and
results in the production of four spores
b. in many species, they are the site of
karyogamy
c. in many species they are the only
diploid stage of the life cycle
d. they are both formed at the top of a
crozier
20. A
Uredospores is
a. haploid. Fusion of two uredospores of different mating types produces
the dikaryon stage in rusts.
b. dikaryotic
c. reddish colored and responsible for the
common name of the rust fungi
d. able to re-infect their host and
produce more uredospores
e. a thick-walled resting spore of the
Uredinales that is the site of karyogamy
True/False write true or false to the left of each answer (1 point each)
1. More than one ascus can develop from a
single ascogenous hypha.
2. The Powdery mildews got their common
name because of the appearance of their conidial chains on plant leaf surfaces.
3. The Deuteromycota are called a
ÒformÓ-phylum because it is ÒformedÓ from members of the Ascomycota and
Basidiomycota.
4. Genetic recombination does not occur in
the Deuteromycota
5. Sacharomyces ludwiggii is said to have a short haploid phase because
plasmogamy and karyogamy takes place between ascospores in the ascus
6. A sporangiolum is a sporangium with
less than 30 sporangiospores
7. Gasteromycetes are Basidiomycota that
lack a hymenium and produce basidiospores that are not forcibly discharged
8. The dikaryon in the Basidiomycota is
formed just before development of the basidiocarp
Short Answers:
1. The Ascomycota and Basidiomycota are
sometimes grouped as the dikaryomycetes because they both have a dikaryon
phase.
a. For which phylum is the dikaryon
free-living and for which is it not?
Explain what this means.
Also, how long may the dikaryon in this phylum exist? (3 points)
c. For the phylum where the dikaryon is
not free-living, what is its source of nutrients for the growth of the
dikaryotic hyphae? (1 point)
d. Do the dikaryotic nuclei in Òc.Ó
undergo mitosis? Explain (1 point)
2. a. Saccharomyces cerevisiae is
unusual among the Ascomycota in having no dikaryotic stage. What specific aspect of its life cycle
causes it to lack a dikaryotic stage? (2 points)
b. What is the nuclear ploidy (haploid,
diploid) of the asexual, budding phase of the S.cerevisiae life cycle?
Explain. (2 points)
c. Why is S. cerevisiae considered to be one of the most important fungi
in terms of daily human life? (1 point)
3. a
What are the names of the ascocarps of the following classes of the
Ascomycota? Describe these
structures (you may use drawings to assist your description). (5 points)
Hemiascomycetes
Pyrenomycetes
Plectomycetes
Loculoascomycetes
Laboulobenomycetes
b. What is the nuclear ploidy of the
ascocarp? (1 point)
c. What is a bitunicate ascus and how does
it differ from a unitunicate ascus?
Which class(es) have bitunicate asci? (2 points)
d. (Extra credit) Support the statement:
Ascospore formation is more similar to sporangiospore formation than to
conidiation? (2 points)
4. a. What are the distinguishing
features of the conidiophores of the genera Aspergillus and Penicillium? Draw the conidiophores and label the phialides
and conidia. ( 3 points)
4. b.
Do these two species use a holoblastic or enteroblastic mode of conidiation?
Explain your answer (2 points)
5. Draw
a mushroom and label the stipe, cap, volva, annulus, and gills. (3 points)
a. What is the nuclear ploidy of each
these structures? (2 point)
b.
What is the hymenium (define)? and where is it in the structure? (2 points)
c.
Where is the basidiocarp? (1 point)
d. Some mushrooms have scales on the
pileus, a volva and an annulus.
From where did these structures each originate? Explain. (2 points)
(Extra Credit)
e. What order is this mushroom from? ( 1 point)
6. A pycnidium and a perithecium
superficially look similar. You
discover such a structure in the field.
a. What features can you observe
microscopically to determine which of these two structures you have found? (2
points)
b. Can a single fungal species produce
both pycnidia and perithecia. Explain your answer (2 points)
7. The
rust fungus Puccinia graminis
is said to be macrocyclic and heteroecious. a. What
features of its lifecycle do these terms refer to? (3 points)
b.
Extra Credit: Match the spore type to the description
for P. graminis. Write the nuclear ploidy for each spore
type (n, n+n, or 2n) to the LEFT of the spore type. (5 points)
Basidiospore formed
on barberry, but infects wheat
Spermatium overwintering
spore
Aeciospore male
gametangium formed on barberry
Uredospore causes
repeated cycles of infection during the summer
Teliospore formed
following germination of the metabasidium
8. That dreaded life cycle
a. Label
the following structures
i. sporangium
ii. stolon
iii. rhizoids
iv. suspensor cells
v. zygospore
b. What
is the nuclear ploidy of each
of
the above structures?
c. How
do the gametangia differ from each other
in
this organism? Where are they?
d. Indicate
on the figure where karyogamy takes place.
Indicate
where meiosis takes place.
e. From
this life cycle can you tell whether this organism is homothallic or
heterothallic? Support your
answer.
Definitions: (be
concise; 1.5 points per definition)
crozier-
ascogonium-
trichogyne-
acervulus-
merosporangium-
Gasteromycetes -
MORE EXTRA
CREDIT:
What are the VAM fungi,
what features of their life cycle give them their name (VAM) and how do they
play an important role as a symbiont in nature? (3 points)
What is that topic that
you studied all night for, but I didnÕt put on the exam? Write your question and answer for a
sliding (1-5) scale.