Bio Ch.27
13) If a bacterium regenerates from an endospore that did not possess
any of the plasmids that were contained in its original parent cell,
the regenerated bacterium will probably also lack ________.
A)
antibiotic-resistant genes
B) a cell wall
C) a chromosome
D) water in its cytoplasm
A) antibiotic-resistant genes
Chloramphenicol is an antibiotic that targets prokaryotic (70S)
ribosomes, but not eukaryotic (80S) ribosomes. Which of these
questions stems from this observation, plus an understanding of
eukaryotic origins?
A) Can chloramphenicol also be used to
control human diseases that are caused by archaeans? B) Can
chloramphenicol pass through the capsules possessed by many cyanobacteria?
C) If chloramphenicol inhibits prokaryotic ribosomes, should it not
also inhibit mitochondrial ribosomes?
D) Why aren't prokaryotic
ribosomes identical to eukaryotic ribosomes?
C) If chloramphenicol inhibits prokaryotic ribosomes, should it not also inhibit mitochondrial ribosomes?
Termites eat wood, but many do not produce enzymes themselves that
will digest the cellulose in the wood. Instead, some termites house a
complex community of protozoa, bacteria, and archaea that could help
digest the cellulose. Imagine an experiment that fed termites either
wood only or wood and antibiotics, and then measured the amount of
energy extracted from the wood. If both groups gained equal amounts of
energy, which of the conclusions is the most logical?
A) We
would conclude that the protozoa contributed to digestion of cellulose
and lignin.
B) We would conclude that the archaea contributed to
digestion of cellulose and lignin.
C) We would conclude that the
bacteria did not contribute to digestion of cellulose and lignin. D)
We would conclude that none of the three groups were needed to digest
cellulose and lignin.
C) We would conclude that the bacteria did not contribute to digestion of cellulose and lignin
In this eight-year experiment, 12 populations of E. coli, each begun from a single cell, were grown in low-glucose conditions for 20,000 generations. Each culture was introduced to fresh growth medium every 24 hours. Occasionally, samples were removed from the populations, and their fitness in low-glucose conditions was tested against that of members sampled from the ancestral (common ancestor) E. coli population.
The cells in the 12 cell lines grown in low-glucose conditions
showed the effects of which of the following processes?
A) gene
flow and genetic drift
B) natural selection and mutation
C) natural selection and gene flow
D) conjugation and transformation
B) natural selection and mutation
In this eight-year experiment, 12 populations of E. coli, each begun from a single cell, were grown in low-glucose conditions for 20,000 generations. Each culture was introduced to fresh growth medium every 24 hours. Occasionally, samples were removed from the populations, and their fitness in low-glucose conditions was tested against that of members sampled from the ancestral (common ancestor) E. coli population.
Imagine that after generation 20,000, the experimental cells were
grown in high-glucose conditions for 20,000 generations (using the
same transfer process described). Refer to the y-axis on the graph and
predict the fitness of the new lines when tested in low- and
high-glucose conditions.
A) low: 1.0; high: 1.0
B) low:
1.6; high: 1.6
C) low: 1.0; high: 1.6
D) low: 1.6; high: 1.0
A) low: 1.0; high: 1.0
The figure below depicts changes to the amount of DNA present in a recipient cell that is engaged in conjugation with an Hfr cell. Hfr cell DNA begins entering the recipient cell at Time A. Assume that reciprocal crossing over occurs (in other words, a fragment of the recipient's chromosome is exchanged for a homologous fragment from the Hfr cell's DNA).
What process is occurring at Time C that is decreasing the DNA
content? A) crossing over
B) cytokinesis
C) degradation of
DNA that was not retained in the recipient's chromosome D) reversal of
the direction of conjugation
C) degradation of DNA that was not retained in the recipient's chromosome
The figure below depicts changes to the amount of DNA present in a recipient cell that is engaged in conjugation with an Hfr cell. Hfr cell DNA begins entering the recipient cell at Time A. Assume that reciprocal crossing over occurs (in other words, a fragment of the recipient's chromosome is exchanged for a homologous fragment from the Hfr cell's DNA).
How is the recipient cell different at Time D than it was at Time
A? A) It has a greater number of genes.
B) It has a greater
mass of DNA.
C) It has a different sequence of base pairs.
D) It contains bacteriophage DNA.
C) It has a different sequence of base pairs.
The figure below depicts changes to the amount of DNA present in a recipient cell that is engaged in conjugation with an Hfr cell. Hfr cell DNA begins entering the recipient cell at Time A. Assume that reciprocal crossing over occurs (in other words, a fragment of the recipient's chromosome is exchanged for a homologous fragment from the Hfr cell's DNA).
Which two processes are responsible for the shape of the curve at
Time B?
A) transduction and rolling circle replication of
single-stranded Hfr DNA
B) entry of single-stranded Hfr DNA and
rolling circle replication of single-stranded Hfr DNA C) rolling
circle replication of single-stranded Hfr DNA and activation of DNA
pumps in the plasma membrane
D) transduction and activation of
DNA pumps in the plasma membrane
B) entry of single-stranded Hfr DNA and rolling circle replication of single-stranded Hfr DNA
The figure below depicts changes to the amount of DNA present in a recipient cell that is engaged in conjugation with an Hfr cell. Hfr cell DNA begins entering the recipient cell at Time A. Assume that reciprocal crossing over occurs (in other words, a fragment of the recipient's chromosome is exchanged for a homologous fragment from the Hfr cell's DNA).
During which two times can the recipient accurately be described as "recombinant" due to the
sequence of events portrayed in the figure? A) during times C and
D
B) during times A and C
C) during times A and B
D) during times B and D
A) during times C and D
A hypothetical bacterium swims among human intestinal contents until it finds a suitable location on the intestinal lining. It adheres to the intestinal lining using a feature that also protects it from phagocytes, bacteriophages, and dehydration. Fecal matter from a human in whose intestine this bacterium lives can spread the bacterium, even after being mixed with water and boiled. The bacterium is not susceptible to the penicillin family of antibiotics. It contains no plasmids and relatively little peptidoglycan. The cell also lacks F factors and F plasmids. Which of the following statements about the bacteria is most probably accurate?
A) The bacterium cannot donate DNA through conjugation with another
cell. B) The bacterium cannot take up DNA from its external
environment.
C) The bacterium cannot form an endospore.
D)
The bacterium cannot reproduce.
A) The bacterium cannot donate DNA through conjugation with another cell.
The following table depicts characteristics of five prokaryotic species (A-E). Use the information in the table to answer the question.
Species D is pathogenic if it gains access to the human intestine.
Which other species, if it coinhabited a human intestine along with
species D, is most likely to become a recombinant species that is both
pathogenic and resistant to some antibiotics?
A) species A
B) species B
C) species C
D) species E
C) species C
Which species might include cells that are Hfr cells? A) species
A
B) species B
C) species C
D) species D
D) species D
In this eight-year experiment, 12 populations of E. coli, each begun from a single cell, were grown in low-glucose conditions for 20,000 generations. Each culture was introduced to fresh growth medium every 24 hours. Occasionally, samples were removed from the populations, and their fitness in low-glucose conditions was tested against that of members sampled from the ancestral (common ancestor) E. coli population.
Which term best describes what has occurred among the experimental
populations of cells over this eight-year period?
A)
microevolution
B) speciation
C) adaptive radiation
D) stabilizing selection
A) microevolution
In this eight-year experiment, 12 populations of E. coli, each begun from a single cell, were grown in low-glucose conditions for 20,000 generations. Each culture was introduced to fresh growth medium every 24 hours. Occasionally, samples were removed from the populations, and their fitness in low-glucose conditions was tested against that of members sampled from the ancestral (common ancestor) E. coli population.
Compare the bacteria in the figure above in generation 1 and
generation 20,000. The bacteria in generation 1 have a greater
________.
A) efficiency at exporting glucose from the cell to
the environment
B) ability to survive on simple sugars, other
than glucose
C) ability to synthesize glucose from amino acid precursors D) reliance on glycolytic enzymes
D) reliance on glycolytic enzymes
In this eight-year experiment, 12 populations of E. coli, each begun from a single cell, were grown in low-glucose conditions for 20,000 generations. Each culture was introduced to fresh growth medium every 24 hours. Occasionally, samples were removed from the populations, and their fitness in low-glucose conditions was tested against that of members sampled from the ancestral (common ancestor) E. coli population.
If the vertical axis of the figure above refers to relative
fitness, then which of the following is the most valid and accurate
measure of fitness?
A) number of daughter cells produced per
mother cell per generation
B) average swimming speed of cells
through the growth medium
C) amount of glucose synthesized per unit time D) number of generations per unit time
D) number of generations per unit time
In this eight-year experiment, 12 populations of E. coli, each begun from a single cell, were grown in low-glucose conditions for 20,000 generations. Each culture was introduced to fresh growth medium every 24 hours. Occasionally, samples were removed from the populations, and their fitness in low-glucose conditions was tested against that of members sampled from the ancestral (common ancestor) E. coli population.
E. coli cells typically make most of their ATP by metabolizing
glucose. Under the conditions of this experiment, E. coli generation
times in the experimental lines and low-glucose conditions should
________.
A) be the same as in the typical environment
B) be faster than in the typical environment
C) be slower
than in the typical environment D) increase over time in the
experimental cells
C) be slower than in the typical environment
In this eight-year experiment, 12 populations of E. coli, each begun from a single cell, were grown in low-glucose conditions for 20,000 generations. Each culture was introduced to fresh growth medium every 24 hours. Occasionally, samples were removed from the populations, and their fitness in low-glucose conditions was tested against that of members sampled from the ancestral (common ancestor) E. coli population.
If the experimental population of E. coli lacks an F factor or F
plasmid, and if bacteriophages are excluded from the bacterial
cultures, then beneficial mutations might be transmitted horizontally
to other E. coli cells via ________.
A) sex pili
B) transduction
C) conjugation
D) transformation
D) transformation
In a hypothetical situation, the genes for sex pilus construction and
for tetracycline resistance are located on the same plasmid within a
particular bacterium. If this bacterium readily performs conjugation
involving a copy of this plasmid, then the result should be the
________.
A) temporary possession by this bacterium of a
completely diploid genome
B) rapid spread of tetracycline resistance to other bacteria in
that habitat C) subsequent loss of tetracycline resistance from this
bacterium
D) production of endospores among the bacterium's progeny
B) rapid spread of tetracycline resistance to other bacteria in that habitat
Which of the following is least associated with the others? A)
horizontal gene transfer
B) conjugation
C) transformation
D) binary fission
D) binary fission
The sea slug Pteraeolidia ianthina (P. ianthina) can harbor living dinoflagellates (photosynthetic protists) in its skin. These endosymbiotic dinoflagellates reproduce quickly enough to maintain their populations. Low populations of the dinoflagellates do not affect the sea slugs very much, but high populations (> 5 x 105 cells/mg of sea slug protein) can promote sea slug survival.
Percent of sea slug respiratory carbon demand provided by indwelling dinoflagellates.
If we assume that carbon is the sole nutrient needed by sea slugs
to drive their cellular respiration, then based on the graph, during
which season(s) is it least necessary for P. ianthina to act as a
chemoheterotroph?
A) winter
B) spring
C)
summer
D) fall
C) summer
The sea slug Pteraeolidia ianthina (P. ianthina) can harbor living dinoflagellates (photosynthetic protists) in its skin. These endosymbiotic dinoflagellates reproduce quickly enough to maintain their populations. Low populations of the dinoflagellates do not affect the sea slugs very much, but high populations (> 5 x 105 cells/mg of sea slug protein) can promote sea slug survival.
Percent of sea slug respiratory carbon demand provided by indwelling dinoflagellates.
Which of the following would be a potential disadvantage to the sea
slugs of housing the dinoflagellates?
A) The CO2 produced by the
dinoflagellates would poison the sea slug.
B) The
dinoflagellates would be an energy drain on the sea slug.
C) The sea slugs are exposed to predators when they spend time in
the sunlit areas needed by the dinoflagellates.
D) The
dinoflagellates will reduce the ability of the sea slugs to move.
C) The sea slugs are exposed to predators when they spend time in the sunlit areas needed by the dinoflagellates.
Use of synthetic fertilizers often leads to the contamination of
groundwater with nitrates. Nitrate pollution is also a suspected cause
of anoxic "dead zones" in the ocean. Which of the following
might help reduce nitrate pollution?
A) growing improved crop
plants that have nitrogen-fixing enzymes
B) adding nitrifying bacteria to the soil
C) adding
denitrifying bacteria to the soil
D) using ammonia instead of
nitrate as a fertilizer
A) growing improved crop plants that have nitrogen-fixing enzymes
Biologists sometimes divide living organisms into two groups:
autotrophs and heterotrophs. These two groups differ in
________.
A) their sources of carbon
B) their electron acceptors
C) their mode of inheritance
D) the way that they generate ATP
A) their sources of carbon
Data were collected from the heterocysts of a nitrogen-fixing cyanobacterium inhabiting equatorial ponds. Study the graph and choose the most likely explanation for the shape of the curve.
A) Enough oxygen (O2) enters heterocysts during hours of peak
photosynthesis to have a somewhat inhibitory effect on nitrogen
fixation.
B) Atmospheric nitrogen (N2) levels increase at night
because plants are no longer metabolizing this gas, so they are not
absorbing this gas through their stomata.
C) Heterocyst walls
become less permeable to nitrogen (N2) influx during darkness.
D) The amount of fixed nitrogen that is dissolved in the pond water in
which the cyanobacteria are growing peaks at the close of the
photosynthetic day (1800 hours).
A) Enough oxygen (O2) enters heterocysts during hours of peak photosynthesis to have a somewhat inhibitory effect on nitrogen fixation.
A hypothetical bacterium swims among human intestinal contents until it finds a suitable location on the intestinal lining. It adheres to the intestinal lining using a feature that also
protects it from phagocytes, bacteriophages, and dehydration. Fecal
matter from a human in whose intestine this bacterium lives can spread
the bacterium, even after being mixed with water and boiled. The
bacterium is not susceptible to the penicillin family of antibiotics.
It contains no plasmids and relatively little peptidoglycan. This
bacterium derives nutrition by digesting human intestinal contents.
Thus, this bacterium is an ________.
A) aerobic
chemoheterotroph
B) aerobic chemoautotroph
C) anaerobic
chemoheterotroph
D) anaerobic chemoautotroph
C) anaerobic chemoheterotroph
Nitrogenase, the enzyme that catalyzes nitrogen fixation, is inhibited whenever free oxygen (O2) reaches a critical concentration. Consequently, nitrogen fixation cannot occur in cells wherein photosynthesis produces free O2. Consider the colonial aquatic cyanobacterium, Anabaena, whose heterocysts are described as having "...a thickened cell wall that restricts entry of O2 produced by neighboring cells. Intercellular connections allow heterocysts to transport fixed nitrogen to neighboring cells in exchange for carbohydrates."
Given that the enzymes that catalyze nitrogen fixation are inhibited
by oxygen, what mechanism might nitrogen-fixing prokaryotes use to
protect these enzymes from oxygen?
A) couple the nitrogen
fixation enzymes with photosystem II (the photosystem that splits
water) B) package the nitrogen fixation enzymes in membranes that are
impermeable to all gases
C) live only in anaerobic environments
D) package the nitrogen
fixation enzymes in membranes that are impermeable to nitrogen gas (N2).
C) live only in anaerobic environments
Nitrogenase, the enzyme that catalyzes nitrogen fixation, is inhibited whenever free oxygen (O2) reaches a critical concentration. Consequently, nitrogen fixation cannot occur in cells wherein photosynthesis produces free O2. Consider the colonial aquatic cyanobacterium, Anabaena, whose heterocysts are described as having "...a thickened cell wall that restricts entry of O2 produced by neighboring cells. Intercellular connections allow heterocysts to transport fixed nitrogen to neighboring cells in exchange for carbohydrates."
Think about this description of the colonial aquatic cyanobacterium,
Anabaena. Which of the following questions below is important for
understanding how nitrogen (N2) enters heterocysts, and how oxygen
(O2) is kept out of heterocysts?
A) If carbohydrates can enter
the heterocysts from neighboring cells via the "intercellular
connections," how is it that O2 doesn't also enter via this route?
B) If the cell walls of Anabaena photosynthetic cells are permeable
to O2 and carbon dioxide (CO2), are they also permeable to N2?
C) If the nuclei of the photosynthetic cells contain the genes that
code for nitrogen fixation, how can these cells fail to perform
nitrogen fixation?
D) If the nuclei of the heterocysts contain the genes that code for photosynthesis, how can these cells fail to perform photosynthesis?
A) If carbohydrates can enter the heterocysts from neighboring cells via the "intercellular connections," how is it that O2 doesn't also enter via this route?
Which two species might be expected to cooperate metabolically,
perhaps forming a biofilm wherein one species surrounds cells of the
other species?
A) species A and B
B) species A and C
C) species B and E
D) species C and D
A) species A and B
If plaque on teeth is actually a biofilm, which of the following
characteristics would you expect to find in plaque?
A) multiple
species of bacteria, production of chemicals that attract other
bacteria, and production of chemicals that allow the bacteria to
adhere to enamel
B) single species of bacteria, production of antibiotics, and
mechanisms in the biofilm that allow inner cells to expel wastes
C) multiple species of bacteria, production of antibiotics, and
mechanisms in the biofilm that allow inner cells to expel wastes
D) single species of bacteria, production of chemicals that attract other bacteria, and production of chemicals that allow the bacteria to adhere to enamel
A) multiple species of bacteria, production of chemicals that attract other bacteria, and production of chemicals that allow the bacteria to adhere to enamel
For several decades now, amphibian species worldwide have been in decline. A significant proportion of the decline seems to be due to the spread of the chytrid fungus, Batrachochytrium dendrobatidis (Bd). Chytrid sporangia reside within the epidermal cells of infected animals, animals that consequently show areas of sloughed skin. They can also be lethargic, which is expressed through failure to hide and failure to flee. The infection cycle typically takes four to five days, at the end of which zoospores are released from sporangia into the environment. In some amphibian species, mortality rates approach 100%; other species seem able to survive the infection.
If infection primarily involves the outermost layers of adult
amphibian skin, and if the chytrids use the skin as their sole source
of nutrition, then which term best applies to the chytrids?
A)
anaerobic chemoautotroph
B) aerobic chemoautotroph
C) anaerobic chemoheterotroph
D) aerobic chemoheterotroph
D) aerobic chemoheterotroph