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Deck 11: Single-Celled Life

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Question
Prokaryotes differ from eukaryotes in that they

A)have flagella.
B)lack DNA.
C)have chloroplasts and mitochondria.
D)lack a nuclear envelope.
E)have cell walls.
Use Space or
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Question
Some bacteria can form resting structures called ___________ that can withstand extremes in temperature, moisture, and radiation.

A)prions
B)symbionts
C)capsids
D)viroids
E)endospores
Question
Members of the Archaea differ from members of the Bacteria (or eubacteria)in that only the members of the Archaea have

A)different lipids in their membranes.
B)a nuclear membrane.
C)enzymes to carry out respiration in their plasma membranes.
D)a peptidoglycan cell wall.
E)a variety of morphologies, including cocci and vibrios.
Question
Which form of bacterial cells is rod shaped?

A)spirilla
B)cocci
C)vibrios
D)bacilli
E)rhodius
Question
What gram-positive organisms are the smallest living cells?

A)actinomycetes
B)halophiles
C)prions
D)mycoplasmas
E)cyanobacteria
Question
What term is used to describe bacteria that can only live in the absence of oxygen?

A)aerobes
B)anaerobes
C)oxyphiles
D)oxyphobes
E)methanogens
Question
Prions are composed of

A)DNA.
B)RNA.
C)protein.
D)DNA and protein.
E)DNA, RNA, and protein.
Question
What is the main difference between protists and bacteria?

A)Protists are unicellular, bacteria are multicellular.
B)Bacteria have DNA, protists do not.
C)Protists cannot cause infections, bacteria can
D)Protists have a nucleus, bacteria do not
E)Bacteria are always gram-negative, protists are gram-positive
Question
Rickettsias belong to which major group of bacteria?

A)proteobacteria
B)cyanobacteria
C)viruses
D)Archaea
E)spirochetes
Question
In bacteria, the cell wall is composed mainly of

A)peptidoglycans.
B)lipids.
C)glycoproteins.
D)proteins.
E)various polysaccharides.
Question
Most bacteria are

A)symbionts.
B)heterotrophs.
C)chemoautotrophs.
D)photoautotrophs.
E)microbial predators.
Question
What differentiates gram-positive bacteria from gram-negative bacteria?

A)the presence of a nucleus
B)the presence of ribosomes
C)the composition of the cell wall
D)the shape of the cells
E)the method of reproduction
Question
Which of the following is not true of mycoplasmas?

A)They are the smallest truly living organisms.
B)They are members of the domain Bacteria.
C)They only inhabit multicelled organisms.
D)Although classified as gram-positive, they lack cell wall.
E)They can be pathogenic, causing pneumonia and urinary tract infections.
Question
Kelps are a form of what group of protists?

A)brown algae
B)slime molds
C)water molds
D)ciliates
E)dinoflagellates
Question
Considering DNA sequence similarities and common pigments, the _____ are the most likely ancestor of land plants.

A)euglenoids
B)dinoflagellates
C)brown algae
D)red algae
E)green algae
Question
All viruses have

A)DNA and protein.
B)RNA and protein.
C)DNA and either RNA or protein.
D)protein and either RNA or DNA.
E)RNA and either DNA or protein.
Question
The organism that causes malaria

A)is a multicellular protozoan.
B)is the anopheles mosquito.
C)attacks the protein globin in skin cells.
D)is a single-celled protozoan.
E)causes the overproduction of red blood cells.
Question
Mad cow disease is caused by an infectious protein, also known as a(n)

A)endospore.
B)rickettsia.
C)virion.
D)prion.
E)viroid.
Question
Malarial parasites' favorite food source is

A)chitin.
B)collagen.
C)myosin.
D)hemoglobin.
E)fibrinogen.
Question
The ________ resemble the ancestor of all animals.

A)choanoflagellates
B)dinoflagellates
C)amoeboflagellates
D)euglenoids
E)ciliates
Question
Organisms are included in the Protists (or Protoctista)based on what features?
Question
Discuss how the world might be different without bacteria.
Question
Halophiles are able to survive

A)under any extreme environmental condition.
B)in extremely high salt concentrations.
C)at very high temperatures.
D)by producing methane.
E)at very cold temperatures.
Question
Each of the following is a common shape of prokaryote except

A)vibrios.
B)spirilla.
C)cilia.
D)bacilli.
E)cocci.
Question
Cyanobacteria play a tremendous ecological role. Among other things, they are responsible for

A)removing tons of oxygen from the atmosphere.
B)converting nitrogen in the soil to nitrogen gas.
C)providing usable forms of carbon and nitrogen for other organisms.
D)killing harmful bacteria in soil.
E)producing many antibiotics.
Question
In viruses, the capsid

A)is composed of DNA or RNA.
B)destroys the viral DNA or RNA.
C)is never present.
D)consists of many genes.
E)may be involved in attachment of the virus.
Question
Discuss some of the differences between organisms in the domains Bacteria and Archaea.
Question
Prokaryotes reproduce

A)very slowly.
B)via binary fission.
C)sexually.
D)such that one of the offspring is always much larger than the other.
E)via binary fusion.
Question
What benefits do plant-eating animals receive from the bacteria that live in their guts?
Question
Most members of the domain Archaea are

A)found in common environments.
B)strictly aerobic.
C)anaerobes.
D)very similar to complex eukaryotic cells.
E)many-celled organisms.
Question
All but one of the following are false regarding protists. Identify the true statement.

A)All protists are single-celled organisms.
B)Protists are prokaryotic.
C)Protists have cell walls composed mainly of peptidoglycans.
D)Most protists are single-celled organisms; some are multicellular.
E)Protists do not have the ability to move on their own.
Question
Why are infections caused by viruses so much more difficult to treat or cure than those caused by bacteria?
Question
Match each disease to its infectious agent.
6. __ RNA-base diseases in plants
7. __ malaria
8. __ Lyme disease and syphilis
9. __ Mad cow disease
10. __ influenza and smallpox
A. prion
B. viroid
C. virus
D. bacterium
E. protozoan
Question
Match characteristic to Protistan group.
11. ___ Are only muticellular when food is scarce
12. ___ Cause “red tides”
13. ___ Soure of agar and carrageenan
14. ___ Unpigmented cells with multiple nuclei, produces swimming spores
15. ___ Helps with plant like bodies and transport tissues
A. red algae
B. brown algae
C. cellular slime molds
D. watermolds (Oomycota)
E. dinofalgellates
Question
The common human parasite Giardia lamblia

A)can cause diarrhea.
B)is a bacterium.
C)multiplies very slowly.
D)uses pseudopodia for locomotion.
E)is involved in many heart attacks.
Question
Endospores form

A)when the environmental conditions are favorable.
B)during binary fission.
C)as a means of genetic recombination.
D)in response to adverse conditions.
E)to produce two offspring from every one parental cell.
Question
Match the following examples with the correct descriptive term.
21. __ General term describing transfer of genetic material from one bacterium to
another
22. __ Means by which bacteria reproduce
25. __ Genetic transfer between two bacteria involving cell to cell contact
24. __ Transfer of naked DNA from one bacterium into another
25. __ Requires a virus
A. conjugation
B. binary fission
C. transduction
D. genetic recombination
E. transformation
Question
When a person visits the doctor with a bacterial infection, one of the first lab tests on the patient will tell the doctor whether the bacteria are gram-negative or gram-positive. Why is this important information for a doctor to have before deciding on treatment?
Question
Explain how bioremediation works, using an oil spill as an example.
Question
According to the old Linnaean scheme of classifying the living world into either animals or plants, any organism that could photosynthesize was considered a plant. What kingdoms in the new system contain photosynthetic organisms and what criteria are now used to group them?
Question
Red tides are caused by

A)formaniferans.
B)dinoflagellates.
C)many different organisms from many different classification groups.
D)sea weeds.
E)ciliates.
Question
Match between columns
Premises:
Responses:
Require organic nutrients produced by other organisms
parasite
Require organic nutrients produced by other organisms
saprobe
Require organic nutrients produced by other organisms
symbiont
Require organic nutrients produced by other organisms
pathogen
Require organic nutrients produced by other organisms
autotrophs
Require organic nutrients produced by other organisms
heterotrophs.
Live on dead organisms
parasite
Live on dead organisms
saprobe
Live on dead organisms
symbiont
Live on dead organisms
pathogen
Live on dead organisms
autotrophs
Live on dead organisms
heterotrophs.
Capable of causing disease
parasite
Capable of causing disease
saprobe
Capable of causing disease
symbiont
Capable of causing disease
pathogen
Capable of causing disease
autotrophs
Capable of causing disease
heterotrophs.
Capable of making organic nutrients from inorganic materials
parasite
Capable of making organic nutrients from inorganic materials
saprobe
Capable of making organic nutrients from inorganic materials
symbiont
Capable of making organic nutrients from inorganic materials
pathogen
Capable of making organic nutrients from inorganic materials
autotrophs
Capable of making organic nutrients from inorganic materials
heterotrophs.
Residing on or inside other living organisms without causing harm
parasite
Residing on or inside other living organisms without causing harm
saprobe
Residing on or inside other living organisms without causing harm
symbiont
Residing on or inside other living organisms without causing harm
pathogen
Residing on or inside other living organisms without causing harm
autotrophs
Residing on or inside other living organisms without causing harm
heterotrophs.
Question
Match between columns
Premises:
Responses:
Have thick peptidoglycan cell walls
spirochetes of the Bacteria
Have thick peptidoglycan cell walls
cyanobacteria
Have thick peptidoglycan cell walls
Euryarcheota of the Archaea
Have thick peptidoglycan cell walls
gram-positive bacteria
Have thick peptidoglycan cell walls
aerobic protecbacteria
Have thick peptidoglycan cell walls
Korarchasota of the Archaea
Known only from isolated rRNA genes
spirochetes of the Bacteria
Known only from isolated rRNA genes
cyanobacteria
Known only from isolated rRNA genes
Euryarcheota of the Archaea
Known only from isolated rRNA genes
gram-positive bacteria
Known only from isolated rRNA genes
aerobic protecbacteria
Known only from isolated rRNA genes
Korarchasota of the Archaea
Tolerateextreme concentrations of salt
spirochetes of the Bacteria
Tolerateextreme concentrations of salt
cyanobacteria
Tolerateextreme concentrations of salt
Euryarcheota of the Archaea
Tolerateextreme concentrations of salt
gram-positive bacteria
Tolerateextreme concentrations of salt
aerobic protecbacteria
Tolerateextreme concentrations of salt
Korarchasota of the Archaea
Includesforms ancestral tomitochondria
spirochetes of the Bacteria
Includesforms ancestral tomitochondria
cyanobacteria
Includesforms ancestral tomitochondria
Euryarcheota of the Archaea
Includesforms ancestral tomitochondria
gram-positive bacteria
Includesforms ancestral tomitochondria
aerobic protecbacteria
Includesforms ancestral tomitochondria
Korarchasota of the Archaea
Generate O2 during photosynthesis
spirochetes of the Bacteria
Generate O2 during photosynthesis
cyanobacteria
Generate O2 during photosynthesis
Euryarcheota of the Archaea
Generate O2 during photosynthesis
gram-positive bacteria
Generate O2 during photosynthesis
aerobic protecbacteria
Generate O2 during photosynthesis
Korarchasota of the Archaea
Question
Match between columns
Premises:
Responses:
Requires a virus
genetic recombination
Requires a virus
binary fission
Requires a virus
conjugation
Requires a virus
transformation
Requires a virus
transduction
Means by which bacteria reproduce
genetic recombination
Means by which bacteria reproduce
binary fission
Means by which bacteria reproduce
conjugation
Means by which bacteria reproduce
transformation
Means by which bacteria reproduce
transduction
Genetic transfer between two bacteria involving cell to cell contact
genetic recombination
Genetic transfer between two bacteria involving cell to cell contact
binary fission
Genetic transfer between two bacteria involving cell to cell contact
conjugation
Genetic transfer between two bacteria involving cell to cell contact
transformation
Genetic transfer between two bacteria involving cell to cell contact
transduction
General term describing transfer of genetic material from one bacterium to another
genetic recombination
General term describing transfer of genetic material from one bacterium to another
binary fission
General term describing transfer of genetic material from one bacterium to another
conjugation
General term describing transfer of genetic material from one bacterium to another
transformation
General term describing transfer of genetic material from one bacterium to another
transduction
Transfer of naked DNA from one bacterium into another
genetic recombination
Transfer of naked DNA from one bacterium into another
binary fission
Transfer of naked DNA from one bacterium into another
conjugation
Transfer of naked DNA from one bacterium into another
transformation
Transfer of naked DNA from one bacterium into another
transduction
Question
Match between columns
Premises:
Responses:
Cause “red tides”
cellular slime molds
Cause “red tides”
dinofalgellates
Cause “red tides”
red algae
Cause “red tides”
watermolds (Oomycota)
Cause “red tides”
brown algae
Are only muticellular when food is scarce
cellular slime molds
Are only muticellular when food is scarce
dinofalgellates
Are only muticellular when food is scarce
red algae
Are only muticellular when food is scarce
watermolds (Oomycota)
Are only muticellular when food is scarce
brown algae
Unpigmented cells with multiple nuclei, produces swimming spores
cellular slime molds
Unpigmented cells with multiple nuclei, produces swimming spores
dinofalgellates
Unpigmented cells with multiple nuclei, produces swimming spores
red algae
Unpigmented cells with multiple nuclei, produces swimming spores
watermolds (Oomycota)
Unpigmented cells with multiple nuclei, produces swimming spores
brown algae
kelps with plant like bodies and transport tissues
cellular slime molds
kelps with plant like bodies and transport tissues
dinofalgellates
kelps with plant like bodies and transport tissues
red algae
kelps with plant like bodies and transport tissues
watermolds (Oomycota)
kelps with plant like bodies and transport tissues
brown algae
Soure of agar and carrageenan
cellular slime molds
Soure of agar and carrageenan
dinofalgellates
Soure of agar and carrageenan
red algae
Soure of agar and carrageenan
watermolds (Oomycota)
Soure of agar and carrageenan
brown algae
Question
Match between columns
Premises:
Responses:
Mad cow disease
viroid
Mad cow disease
protozoan
Mad cow disease
bacterium
Mad cow disease
prion
Mad cow disease
virus
RNA-base diseases in plants
viroid
RNA-base diseases in plants
protozoan
RNA-base diseases in plants
bacterium
RNA-base diseases in plants
prion
RNA-base diseases in plants
virus
Lyme disease and syphilis
viroid
Lyme disease and syphilis
protozoan
Lyme disease and syphilis
bacterium
Lyme disease and syphilis
prion
Lyme disease and syphilis
virus
influenza and smallpox
viroid
influenza and smallpox
protozoan
influenza and smallpox
bacterium
influenza and smallpox
prion
influenza and smallpox
virus
malaria
viroid
malaria
protozoan
malaria
bacterium
malaria
prion
malaria
virus
Question
If you looked at an electron microscope picture of a true bacterium and an archaebacterium, you probably couldn't tell which was which. Yet they are classified into separate kingdoms, and more recently, in separate domains. In what ways are these organisms fundamentally different?
Question
Match between columns
Premises:
Responses:
General term describing transfer of genetic material from one bacterium to another
conjugation
General term describing transfer of genetic material from one bacterium to another
binary fission
General term describing transfer of genetic material from one bacterium to another
transduction
General term describing transfer of genetic material from one bacterium to another
genetic recombination
General term describing transfer of genetic material from one bacterium to another
transformation
Means by which bacteria reproduce
conjugation
Means by which bacteria reproduce
binary fission
Means by which bacteria reproduce
transduction
Means by which bacteria reproduce
genetic recombination
Means by which bacteria reproduce
transformation
Genetic transfer between two bacteria involving cell to cell contact
conjugation
Genetic transfer between two bacteria involving cell to cell contact
binary fission
Genetic transfer between two bacteria involving cell to cell contact
transduction
Genetic transfer between two bacteria involving cell to cell contact
genetic recombination
Genetic transfer between two bacteria involving cell to cell contact
transformation
Transfer of naked DNA from one bacterium into another
conjugation
Transfer of naked DNA from one bacterium into another
binary fission
Transfer of naked DNA from one bacterium into another
transduction
Transfer of naked DNA from one bacterium into another
genetic recombination
Transfer of naked DNA from one bacterium into another
transformation
Requires a virus
conjugation
Requires a virus
binary fission
Requires a virus
transduction
Requires a virus
genetic recombination
Requires a virus
transformation
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Deck 11: Single-Celled Life
1
Prokaryotes differ from eukaryotes in that they

A)have flagella.
B)lack DNA.
C)have chloroplasts and mitochondria.
D)lack a nuclear envelope.
E)have cell walls.
D
2
Some bacteria can form resting structures called ___________ that can withstand extremes in temperature, moisture, and radiation.

A)prions
B)symbionts
C)capsids
D)viroids
E)endospores
E
3
Members of the Archaea differ from members of the Bacteria (or eubacteria)in that only the members of the Archaea have

A)different lipids in their membranes.
B)a nuclear membrane.
C)enzymes to carry out respiration in their plasma membranes.
D)a peptidoglycan cell wall.
E)a variety of morphologies, including cocci and vibrios.
A
4
Which form of bacterial cells is rod shaped?

A)spirilla
B)cocci
C)vibrios
D)bacilli
E)rhodius
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5
What gram-positive organisms are the smallest living cells?

A)actinomycetes
B)halophiles
C)prions
D)mycoplasmas
E)cyanobacteria
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6
What term is used to describe bacteria that can only live in the absence of oxygen?

A)aerobes
B)anaerobes
C)oxyphiles
D)oxyphobes
E)methanogens
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7
Prions are composed of

A)DNA.
B)RNA.
C)protein.
D)DNA and protein.
E)DNA, RNA, and protein.
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8
What is the main difference between protists and bacteria?

A)Protists are unicellular, bacteria are multicellular.
B)Bacteria have DNA, protists do not.
C)Protists cannot cause infections, bacteria can
D)Protists have a nucleus, bacteria do not
E)Bacteria are always gram-negative, protists are gram-positive
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9
Rickettsias belong to which major group of bacteria?

A)proteobacteria
B)cyanobacteria
C)viruses
D)Archaea
E)spirochetes
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10
In bacteria, the cell wall is composed mainly of

A)peptidoglycans.
B)lipids.
C)glycoproteins.
D)proteins.
E)various polysaccharides.
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11
Most bacteria are

A)symbionts.
B)heterotrophs.
C)chemoautotrophs.
D)photoautotrophs.
E)microbial predators.
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12
What differentiates gram-positive bacteria from gram-negative bacteria?

A)the presence of a nucleus
B)the presence of ribosomes
C)the composition of the cell wall
D)the shape of the cells
E)the method of reproduction
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13
Which of the following is not true of mycoplasmas?

A)They are the smallest truly living organisms.
B)They are members of the domain Bacteria.
C)They only inhabit multicelled organisms.
D)Although classified as gram-positive, they lack cell wall.
E)They can be pathogenic, causing pneumonia and urinary tract infections.
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14
Kelps are a form of what group of protists?

A)brown algae
B)slime molds
C)water molds
D)ciliates
E)dinoflagellates
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15
Considering DNA sequence similarities and common pigments, the _____ are the most likely ancestor of land plants.

A)euglenoids
B)dinoflagellates
C)brown algae
D)red algae
E)green algae
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16
All viruses have

A)DNA and protein.
B)RNA and protein.
C)DNA and either RNA or protein.
D)protein and either RNA or DNA.
E)RNA and either DNA or protein.
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17
The organism that causes malaria

A)is a multicellular protozoan.
B)is the anopheles mosquito.
C)attacks the protein globin in skin cells.
D)is a single-celled protozoan.
E)causes the overproduction of red blood cells.
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18
Mad cow disease is caused by an infectious protein, also known as a(n)

A)endospore.
B)rickettsia.
C)virion.
D)prion.
E)viroid.
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19
Malarial parasites' favorite food source is

A)chitin.
B)collagen.
C)myosin.
D)hemoglobin.
E)fibrinogen.
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20
The ________ resemble the ancestor of all animals.

A)choanoflagellates
B)dinoflagellates
C)amoeboflagellates
D)euglenoids
E)ciliates
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21
Organisms are included in the Protists (or Protoctista)based on what features?
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22
Discuss how the world might be different without bacteria.
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23
Halophiles are able to survive

A)under any extreme environmental condition.
B)in extremely high salt concentrations.
C)at very high temperatures.
D)by producing methane.
E)at very cold temperatures.
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k this deck
24
Each of the following is a common shape of prokaryote except

A)vibrios.
B)spirilla.
C)cilia.
D)bacilli.
E)cocci.
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k this deck
25
Cyanobacteria play a tremendous ecological role. Among other things, they are responsible for

A)removing tons of oxygen from the atmosphere.
B)converting nitrogen in the soil to nitrogen gas.
C)providing usable forms of carbon and nitrogen for other organisms.
D)killing harmful bacteria in soil.
E)producing many antibiotics.
Unlock Deck
Unlock for access to all 48 flashcards in this deck.
Unlock Deck
k this deck
26
In viruses, the capsid

A)is composed of DNA or RNA.
B)destroys the viral DNA or RNA.
C)is never present.
D)consists of many genes.
E)may be involved in attachment of the virus.
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27
Discuss some of the differences between organisms in the domains Bacteria and Archaea.
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28
Prokaryotes reproduce

A)very slowly.
B)via binary fission.
C)sexually.
D)such that one of the offspring is always much larger than the other.
E)via binary fusion.
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29
What benefits do plant-eating animals receive from the bacteria that live in their guts?
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30
Most members of the domain Archaea are

A)found in common environments.
B)strictly aerobic.
C)anaerobes.
D)very similar to complex eukaryotic cells.
E)many-celled organisms.
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Unlock Deck
k this deck
31
All but one of the following are false regarding protists. Identify the true statement.

A)All protists are single-celled organisms.
B)Protists are prokaryotic.
C)Protists have cell walls composed mainly of peptidoglycans.
D)Most protists are single-celled organisms; some are multicellular.
E)Protists do not have the ability to move on their own.
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32
Why are infections caused by viruses so much more difficult to treat or cure than those caused by bacteria?
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k this deck
32
Match each disease to its infectious agent.
6. __ RNA-base diseases in plants
7. __ malaria
8. __ Lyme disease and syphilis
9. __ Mad cow disease
10. __ influenza and smallpox
A. prion
B. viroid
C. virus
D. bacterium
E. protozoan
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Unlock Deck
k this deck
33
Match characteristic to Protistan group.
11. ___ Are only muticellular when food is scarce
12. ___ Cause “red tides”
13. ___ Soure of agar and carrageenan
14. ___ Unpigmented cells with multiple nuclei, produces swimming spores
15. ___ Helps with plant like bodies and transport tissues
A. red algae
B. brown algae
C. cellular slime molds
D. watermolds (Oomycota)
E. dinofalgellates
Unlock Deck
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Unlock Deck
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33
The common human parasite Giardia lamblia

A)can cause diarrhea.
B)is a bacterium.
C)multiplies very slowly.
D)uses pseudopodia for locomotion.
E)is involved in many heart attacks.
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34
Endospores form

A)when the environmental conditions are favorable.
B)during binary fission.
C)as a means of genetic recombination.
D)in response to adverse conditions.
E)to produce two offspring from every one parental cell.
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35
Match the following examples with the correct descriptive term.
21. __ General term describing transfer of genetic material from one bacterium to
another
22. __ Means by which bacteria reproduce
25. __ Genetic transfer between two bacteria involving cell to cell contact
24. __ Transfer of naked DNA from one bacterium into another
25. __ Requires a virus
A. conjugation
B. binary fission
C. transduction
D. genetic recombination
E. transformation
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35
When a person visits the doctor with a bacterial infection, one of the first lab tests on the patient will tell the doctor whether the bacteria are gram-negative or gram-positive. Why is this important information for a doctor to have before deciding on treatment?
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36
Explain how bioremediation works, using an oil spill as an example.
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37
According to the old Linnaean scheme of classifying the living world into either animals or plants, any organism that could photosynthesize was considered a plant. What kingdoms in the new system contain photosynthetic organisms and what criteria are now used to group them?
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38
Red tides are caused by

A)formaniferans.
B)dinoflagellates.
C)many different organisms from many different classification groups.
D)sea weeds.
E)ciliates.
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39
Match between columns
Premises:
Responses:
Require organic nutrients produced by other organisms
parasite
Require organic nutrients produced by other organisms
saprobe
Require organic nutrients produced by other organisms
symbiont
Require organic nutrients produced by other organisms
pathogen
Require organic nutrients produced by other organisms
autotrophs
Require organic nutrients produced by other organisms
heterotrophs.
Live on dead organisms
parasite
Live on dead organisms
saprobe
Live on dead organisms
symbiont
Live on dead organisms
pathogen
Live on dead organisms
autotrophs
Live on dead organisms
heterotrophs.
Capable of causing disease
parasite
Capable of causing disease
saprobe
Capable of causing disease
symbiont
Capable of causing disease
pathogen
Capable of causing disease
autotrophs
Capable of causing disease
heterotrophs.
Capable of making organic nutrients from inorganic materials
parasite
Capable of making organic nutrients from inorganic materials
saprobe
Capable of making organic nutrients from inorganic materials
symbiont
Capable of making organic nutrients from inorganic materials
pathogen
Capable of making organic nutrients from inorganic materials
autotrophs
Capable of making organic nutrients from inorganic materials
heterotrophs.
Residing on or inside other living organisms without causing harm
parasite
Residing on or inside other living organisms without causing harm
saprobe
Residing on or inside other living organisms without causing harm
symbiont
Residing on or inside other living organisms without causing harm
pathogen
Residing on or inside other living organisms without causing harm
autotrophs
Residing on or inside other living organisms without causing harm
heterotrophs.
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40
Match between columns
Premises:
Responses:
Have thick peptidoglycan cell walls
spirochetes of the Bacteria
Have thick peptidoglycan cell walls
cyanobacteria
Have thick peptidoglycan cell walls
Euryarcheota of the Archaea
Have thick peptidoglycan cell walls
gram-positive bacteria
Have thick peptidoglycan cell walls
aerobic protecbacteria
Have thick peptidoglycan cell walls
Korarchasota of the Archaea
Known only from isolated rRNA genes
spirochetes of the Bacteria
Known only from isolated rRNA genes
cyanobacteria
Known only from isolated rRNA genes
Euryarcheota of the Archaea
Known only from isolated rRNA genes
gram-positive bacteria
Known only from isolated rRNA genes
aerobic protecbacteria
Known only from isolated rRNA genes
Korarchasota of the Archaea
Tolerateextreme concentrations of salt
spirochetes of the Bacteria
Tolerateextreme concentrations of salt
cyanobacteria
Tolerateextreme concentrations of salt
Euryarcheota of the Archaea
Tolerateextreme concentrations of salt
gram-positive bacteria
Tolerateextreme concentrations of salt
aerobic protecbacteria
Tolerateextreme concentrations of salt
Korarchasota of the Archaea
Includesforms ancestral tomitochondria
spirochetes of the Bacteria
Includesforms ancestral tomitochondria
cyanobacteria
Includesforms ancestral tomitochondria
Euryarcheota of the Archaea
Includesforms ancestral tomitochondria
gram-positive bacteria
Includesforms ancestral tomitochondria
aerobic protecbacteria
Includesforms ancestral tomitochondria
Korarchasota of the Archaea
Generate O2 during photosynthesis
spirochetes of the Bacteria
Generate O2 during photosynthesis
cyanobacteria
Generate O2 during photosynthesis
Euryarcheota of the Archaea
Generate O2 during photosynthesis
gram-positive bacteria
Generate O2 during photosynthesis
aerobic protecbacteria
Generate O2 during photosynthesis
Korarchasota of the Archaea
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41
Match between columns
Premises:
Responses:
Requires a virus
genetic recombination
Requires a virus
binary fission
Requires a virus
conjugation
Requires a virus
transformation
Requires a virus
transduction
Means by which bacteria reproduce
genetic recombination
Means by which bacteria reproduce
binary fission
Means by which bacteria reproduce
conjugation
Means by which bacteria reproduce
transformation
Means by which bacteria reproduce
transduction
Genetic transfer between two bacteria involving cell to cell contact
genetic recombination
Genetic transfer between two bacteria involving cell to cell contact
binary fission
Genetic transfer between two bacteria involving cell to cell contact
conjugation
Genetic transfer between two bacteria involving cell to cell contact
transformation
Genetic transfer between two bacteria involving cell to cell contact
transduction
General term describing transfer of genetic material from one bacterium to another
genetic recombination
General term describing transfer of genetic material from one bacterium to another
binary fission
General term describing transfer of genetic material from one bacterium to another
conjugation
General term describing transfer of genetic material from one bacterium to another
transformation
General term describing transfer of genetic material from one bacterium to another
transduction
Transfer of naked DNA from one bacterium into another
genetic recombination
Transfer of naked DNA from one bacterium into another
binary fission
Transfer of naked DNA from one bacterium into another
conjugation
Transfer of naked DNA from one bacterium into another
transformation
Transfer of naked DNA from one bacterium into another
transduction
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42
Match between columns
Premises:
Responses:
Cause “red tides”
cellular slime molds
Cause “red tides”
dinofalgellates
Cause “red tides”
red algae
Cause “red tides”
watermolds (Oomycota)
Cause “red tides”
brown algae
Are only muticellular when food is scarce
cellular slime molds
Are only muticellular when food is scarce
dinofalgellates
Are only muticellular when food is scarce
red algae
Are only muticellular when food is scarce
watermolds (Oomycota)
Are only muticellular when food is scarce
brown algae
Unpigmented cells with multiple nuclei, produces swimming spores
cellular slime molds
Unpigmented cells with multiple nuclei, produces swimming spores
dinofalgellates
Unpigmented cells with multiple nuclei, produces swimming spores
red algae
Unpigmented cells with multiple nuclei, produces swimming spores
watermolds (Oomycota)
Unpigmented cells with multiple nuclei, produces swimming spores
brown algae
kelps with plant like bodies and transport tissues
cellular slime molds
kelps with plant like bodies and transport tissues
dinofalgellates
kelps with plant like bodies and transport tissues
red algae
kelps with plant like bodies and transport tissues
watermolds (Oomycota)
kelps with plant like bodies and transport tissues
brown algae
Soure of agar and carrageenan
cellular slime molds
Soure of agar and carrageenan
dinofalgellates
Soure of agar and carrageenan
red algae
Soure of agar and carrageenan
watermolds (Oomycota)
Soure of agar and carrageenan
brown algae
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43
Match between columns
Premises:
Responses:
Mad cow disease
viroid
Mad cow disease
protozoan
Mad cow disease
bacterium
Mad cow disease
prion
Mad cow disease
virus
RNA-base diseases in plants
viroid
RNA-base diseases in plants
protozoan
RNA-base diseases in plants
bacterium
RNA-base diseases in plants
prion
RNA-base diseases in plants
virus
Lyme disease and syphilis
viroid
Lyme disease and syphilis
protozoan
Lyme disease and syphilis
bacterium
Lyme disease and syphilis
prion
Lyme disease and syphilis
virus
influenza and smallpox
viroid
influenza and smallpox
protozoan
influenza and smallpox
bacterium
influenza and smallpox
prion
influenza and smallpox
virus
malaria
viroid
malaria
protozoan
malaria
bacterium
malaria
prion
malaria
virus
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44
If you looked at an electron microscope picture of a true bacterium and an archaebacterium, you probably couldn't tell which was which. Yet they are classified into separate kingdoms, and more recently, in separate domains. In what ways are these organisms fundamentally different?
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46
Match between columns
Premises:
Responses:
General term describing transfer of genetic material from one bacterium to another
conjugation
General term describing transfer of genetic material from one bacterium to another
binary fission
General term describing transfer of genetic material from one bacterium to another
transduction
General term describing transfer of genetic material from one bacterium to another
genetic recombination
General term describing transfer of genetic material from one bacterium to another
transformation
Means by which bacteria reproduce
conjugation
Means by which bacteria reproduce
binary fission
Means by which bacteria reproduce
transduction
Means by which bacteria reproduce
genetic recombination
Means by which bacteria reproduce
transformation
Genetic transfer between two bacteria involving cell to cell contact
conjugation
Genetic transfer between two bacteria involving cell to cell contact
binary fission
Genetic transfer between two bacteria involving cell to cell contact
transduction
Genetic transfer between two bacteria involving cell to cell contact
genetic recombination
Genetic transfer between two bacteria involving cell to cell contact
transformation
Transfer of naked DNA from one bacterium into another
conjugation
Transfer of naked DNA from one bacterium into another
binary fission
Transfer of naked DNA from one bacterium into another
transduction
Transfer of naked DNA from one bacterium into another
genetic recombination
Transfer of naked DNA from one bacterium into another
transformation
Requires a virus
conjugation
Requires a virus
binary fission
Requires a virus
transduction
Requires a virus
genetic recombination
Requires a virus
transformation
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