Deck 11: The Diversity of Bacteria and Archaea

A) produces propionic acid AND is responsible for the holes in Swiss cheese.
B) produces propionic acid AND requires aerobic environments.
C) produces lactic acid AND is responsible for the holes in Swiss cheese.
D) is responsible for the holes in Swiss cheese AND requires aerobic environments.
E) produces lactic acid AND is a Gram-negative organism.

A) are a form of algae.
B) are prokaryotes.
C) use hydrogen sulfide as an electron source.
D) are eukaryotes.
E) contribute to global CO2 buildup.

A) obligate aerobes.
B) facultative anaerobes.
C) obligate anaerobes.
D) facultative aerobes.
E) thermophiles.

A) Clostridium
B) Streptococci
C) Enterobacter
D) Lactobacilli
E) Clostridium AND lactobacilli

A) is produced when nitrate is used as terminal electron acceptor.
B) is produced by Desulfovibrio.
C) may react with iron to produce a deep red precipitate.
D) has a strong citrus smell.
E) All of the answer choices are correct.

A) produce catalase.
B) are obligate fermenters.
C) require anaerobic environments.
D) use oxygen as a final electron acceptor.
E) are always pathogenic.

A) catalase production.
B) beta-hemolysis.
C) lactic acid production.
D) growth at refrigerator temperatures.
E) endospore formation.

A) lactic acid bacteria
B) Clostridium acetylbutylicum
C) Desulfovibrio
D) Propionibacterium
E) Lactic acid bacteria AND Propionibacterium

A) carbon dioxide is the final electron acceptor.
B) hydrogen is the final electron acceptor.
C) oxygen is the final electron acceptor.
D) nitrate is the final electron acceptor.
E) fermentation occurs.

A) Bacillus, Chromatium, Thiospirillum
B) Staphylococcus, Thiospirillum, Thidictyon
C) Streptococcus, Chromatium, Thidictyon
D) Escherichia, Chromatium, Thiospirillum
E) Chromatium, Thiospirillum, Thidictyon

A) nitrifying bacteria.
B) fermentative bacteria.
C) lithotrophic bacteria.
D) photosynthetic bacteria.
E) pathogenic bacteria.

A) found in purple sulfur bacteria AND are used to gather wavelengths of light that are not well absorbed by chlorophyll.
B) found in cyanobacteria AND are used to reduce hydrogen sulfide.
C) used to gather wavelengths of light that are not well absorbed by chlorophyll AND are used to reduce hydrogen sulfide.
D) are used to reduce hydrogen sulfide AND are found in purple sulfur bacteria.
E) found in cyanobacteria AND used to gather wavelengths of light that are not well absorbed by chlorophyll.

A) the neutrality of the vaginal mucus.
B) food for the resident vaginal microbiota.
C) acidity of the vagina.
D) fertility of the host.
E) a high vaginal pH.

A) purple sulfur bacteria.
B) green non-sulfur bacteria.
C) purple non-sulfur bacteria.
D) cyanobacteria.
E) cyanoarchaea.

A) are a dormant form of a bacterium AND are formed by members of medically relevant groups of bacteria.
B) are a form of reproduction AND are formed by members of medically relevant groups of bacteria.
C) are a dormant form of a bacterium AND are involved in anaerobic respiration.
D) are formed by members of medically relevant groups of bacteria AND are involved in anaerobic respiration.
E) are a dormant form of a bacterium AND are found in any environmental bacteria.

A) oxidize inorganic compounds AND use sulfur compounds as terminal electron acceptors.
B) oxidize organic compounds AND use sulfur compounds as terminal electron acceptors.
C) oxidize inorganic compounds AND use organic compounds as terminal electron acceptors.
D) oxidize organic compounds AND use organic compounds as terminal electron acceptors.
E) neutralize organic compounds AND use organic compounds as terminal electron acceptors.

A) both use hydrogen sulfide as a source of electrons.
B) generate oxygen.
C) preferentially use organic molecules as an electron source.
D) both lack gas vesicles.
E) generate oxygen and lack gas vesicles.

A) produce oxygen.
B) use water as a source of electrons.
C) use hydrogen sulfide or organic compounds as a source of electrons.
D) use the same form of chlorophyll found in terrestrial plants.
E) produce oxygen AND use the same form of chlorophyll found in terrestrial plants.

A) are part of the domain Archaea AND appear only in aerobic environments.
B) oxidize hydrogen gas to produce methane AND appear only in aerobic environments.
C) use oxygen as a terminal electron acceptor AND appear only in aerobic environments.
D) use oxygen as a terminal electron acceptor AND oxidize hydrogen gas to produce methane.
E) are part of the domain Archaea AND oxidize hydrogen gas to produce methane.

A) forms endospores.
B) fixes nitrogen.
C) fixes carbon dioxide.
D) is used as an indicator of fecal pollution.
E) is a hyperthermophile.

A) involved in bioleaching AND produced by Lactobacillus.
B) produced by unicellular sulfur-oxidizers AND is a result of reduction of metal sulfides.
C) involved in bioleaching AND produced by unicellular sulfur-oxidizers.
D) a result of reduction of metal sulfides AND involved in bioleaching.
E) is a result of reduction of metal sulfides AND is produced by Lactobacillus.

A) are found in nitrogen-fixing cyanobacteria AND produce catalase.
B) are found in nitrogen-fixing cyanobacteria AND are used to protect nitrogenase.
C) are used to protect nitrogenase AND generate oxygen.
D) produce catalase AND are found in nitrogen-fixing cyanobacteria.
E) are found in nitrogen-fixing cyanobacteria AND generate oxygen.

A) resemble fungi.
B) fix nitrogen inside nodules on the roots of legumes.
C) produce antibiotics inside nodules on the roots of legumes.
D) produce a gall in plants.
E) contain the Ti plasmid that modifies the growth of plant tissue.

A) are both thermophilic.
B) are both radiation resistant.
C) both serve as the source of Taq polymerase.
D) are both Gram-positive.
E) survive in extreme environments.

A) contain the Ti plasmid that modifies the growth of plant tissue.
B) produce antibiotics.
C) infect animal cells.
D) resemble fungus.
E) are a group of Gram-negative rod-shaped bacteria that often fix nitrogen.

A) Bacillus anthracis
B) Rhizobium
C) Yersinia pestis
D) Agrobacterium
E) Cyanobacteria

A) Nocardia AND Mycobacterium
B) Pseudomonas AND Escherichia
C) Escherichia AND Mycobacterium
D) Mycobacterium AND Pseudomonas
E) Nocardia AND Pseudomonas

A) Nitrosomonas alone.
B) Nitrobacter alone.
C) Anabaena alone.
D) Nitrosomonas and Nitrobacter.
E) Nitrosomonas, Nitrobacter, and Anabaena.

A) resemble fungi in their pattern of growth AND produce a number of antibiotics.
B) resemble fungi in their pattern of growth AND produce a characteristic blue-green pigment.
C) produce a number of antibiotics AND form endospores.
D) produce a characteristic blue-green pigment AND form endospores.
E) form endospores AND resemble fungi in their pattern of growth.

A) Cysts formed by Azotobacter species.
B) Microcysts within the fruiting bodies of myxobacteria.
C) Dormant spores in the conidia of Streptomyces species.
D) Endospores formed by Geobacillus stearothermophilus.
E) Sulfur granules produced by Thiothrix species.

A) accumulate sulfur as intracellular granules.
B) fix nitrogen.
C) produce oxygen from carbon dioxide.
D) use gliding motility.
E) have gas vesicles.

A) are resistant to many disinfectants and antimicrobials AND do not contain plasmids.
B) are mostly harmless except for the opportunistic P. aeruginosa AND do not contain plasmids.
C) require nutrient-rich environments AND are mostly harmless except for the opportunistic P. aeruginosa.
D) require nutrient-rich environments AND do not contain plasmids.
E) are resistant to many disinfectants and antimicrobials AND are mostly harmless except for the opportunistic P. aeruginosa.

A) Corynebacterium diphtheria.
B) Mycobacterium tuberculosis.
C) Streptococcus pyogenes.
D) Listeria monocytogenes.
E) Mycoplasma pneumoniae.

A) Pseudomonas aeruginosa
B) Mycobacterium avium
C) Mycobacterium leprae
D) Mycobacterium smegmatis
E) Mycoplasma leprae

A) are an informal grouping of enterics.
B) ferment lactose.
C) include E. coli.
D) are used as indicators of fecal contamination.
E) All of the choices are correct.

A) Pseudomonas.
B) Anabaena.
C) Escherichia.
D) Vibrio.
E) Streptococcus.

A) It includes E. coli, Enterobacter, Salmonella, and Shigella.
B) It includes many medically relevant bacteria.
C) Members only reside in the intestinal tract of humans.
D) Members are facultative anaerobes.
E) All of the choices are correct.

A) Clostridia.
B) Streptomyces.
C) lactic acid bacteria.
D) myxobacteria.
E) bacilli.

A) E. coli AND Bacillus.
B) Pseudomonas AND Micrococcus.
C) Clostridium AND Bacillus.
D) Enterococcus AND Deinococcus.
E) Clostridium AND Deinococcus.

A) sulfur-oxidizing archaea.
B) sulfur-reducing archaea.
C) methanogens.
D) sulfur-oxidizing archaea AND sulfur-reducing archaea.
E) methanogens AND sulfur-reducing archaea.

A) known extreme acidophiles.
B) the bacteria.
C) known methanogens.
D) green sulfur bacteria.
E) intracellular parasites.

A) They lack peptidoglycan.
B) They are the smallest free-living organisms.
C) They have sterols in their membranes.
D) They are killed by penicillin.
E) They are pleomorphic.

A) Mycoplasma.
B) Caulobacter.
C) Chlamydia.
D) Myxobacteria.
E) Treponema.

A) cilia.
B) flagella.
C) endoflagella.
D) pili.
E) microvilli.

A) hot springs.
B) plants.
C) mammals.
D) arthropods.
E) marine water.

A) prey on other bacteria.
B) are parasites of plants.
C) may fix nitrogen.
D) are photosynthetic.
E) are filamentous.

A) inhabits squid ink sacs.
B) causes crown gall in plants.
C) inhabits the stomach.
D) has axonemes.
E) produces luminescence.

A) heat.
B) acidity.
C) alkalinity.
D) salinity.
E) All of the choices are correct.

A) Chlamydia and Rickettsia
B) E. coli and Pseudomonas
C) Mycoplasma and E. coli
D) Treponema and Chlamydia
E) Rickettsia, Chlamydia and Pseudomonas

A) morphology AND ability to cause disease.
B) number of flagella AND morphology.
C) pattern of pili AND flexible cell wall.
D) number of chromosomes AND pattern of flagella.
E) ability to cause disease AND pattern of flagella.

A) purple sulfur bacteria.
B) Enterobacteriaceae.
C) sheathed bacteria.
D) green non-sulfur bacteria.
E) prosthecate bacteria.

A) Mycobacteria.
B) Mycoplasmas.
C) Actinomyces.
D) Chlamydia.
E) Escherichia.

A) is catalyzed by luciferase.
B) may be controlled by quorum sensing.
C) may be produced by bacteria.
D) All of the choices are correct.
E) None of the choices is correct.

A) formed by Myxobacteria.
B) formed by sheathed bacteria.
C) also known as coliforms.
D) part of the green non-sulfur bacteria.
E) used in sewage treatment.

A) are luminescent.
B) are endosymbionts.
C) are both easily grown on artificial media.
D) are spirochetes.
E) are never motile.

A) Free-living spirochetes will need genes for additional proteins to synthesize or obtain their own food from the environment. Parasitic spirochetes obtain nutrients from the animal host.
B) The spirochetes in animal hosts are different species entirely. As different species, they would naturally have smaller genomes.
C) A smaller genome implies simplicity-the spirochetes living in animal hosts have fewer needs, so they need fewer genes.
D) It isn't so-all spirochetes would have the same size genomes, since they're all the same species of microbe.
E) Parasitic spirochetes are smaller than free-living spirochetes. Because of this, their genomes are also smaller; they need less genes.

A) Run-off from the lawns will get into the water system, leading to large amounts of nitrogen that can be used by cyanobacteria in water systems.
B) Nutrient-rich grass will be mowed down, with grass clipping bits eventually washing into sewer systems and into larger bodies of water. These grass clippings will serve as a nutrient source for cyanobacteria, leading to blooms.
C) Large amounts of fertilizer will lead to excessive production of greenhouse gases (like CO2) from grass in lawns. Excessive CO2 production will lead to large blooms of cyanobacteria in water systems.
D) Fertilizers contains compounds that encourage the production of bacteriochlorophylls; after rain, fertilizers get into water and are used by cyanobacteria.
E) They won't-the two systems are completely unrelated. How could grass in lawns contribute to effects in lakes and oceans?

A) Their morphology.
B) The nature of their cell walls.
C) The production of catalase.
D) Their ability to cause disease.
E) All of these.

A) Accessory pigments allows even anaerobic microbes to carry out photosynthesis, as they can harvest light energy in the deeper areas where oxygen won't be present.
B) The cells can use wavelengths of light that have not been absorbed by the photosynthetic organisms closer to the surface of the water.
C) These organisms don't have to compete with other cells that use oxygen in the upper levels for the scarce nutrients in the aquatic environment.
D) This allows even anaerobic microbes to conduct photosynthesis, as they can harvest light energy in the deeper areas where oxygen won't be present AND can use wavelengths of light not absorbed by the photosynthetic organisms closer to the surface of the fluid.
E) This allows even anaerobic microbes to conduct photosynthesis, as they can harvest light energy in the deeper areas where oxygen won't be present, use wavelengths of light not absorbed by the photosynthetic organisms closer to the surface of the water; AND don't have to compete with other cells that use oxygen in the upper levels for the scarce nutrients in the fluid environment.

A) The sheath protects the bacteria from predators.
B) The sheath allows these bacteria to perform photosynthesis.
C) Sheathed bacteria frequently block industrial pipes.
D) Sheathed bacteria spread by means of swarmer cells.
E) The sheath allows these bacteria to attach to surfaces.

A) Hydrogen gas is their energy source, and carbon dioxide is their terminal electron acceptor.
B) Hydrogen gas is their terminal electron acceptor, and carbon dioxide is their energy source.
C) Hydrogen gas is their energy source, and carbon dioxide is their carbohydrate source.
D) Hydrogen gas is their initial electron acceptor, and carbon dioxide is their energy source.
E) They use hydrogen gas in respiration, and they use carbon dioxide in photosynthesis.

A) Chemotrophs-organisms that obtain energy by oxidizing chemical compounds.
B) Chemolithotrophs-organisms that harvest energy by oxidizing inorganic chemicals.
C) Anoxygenic phototrophs-photosynthetic organisms that do not produce O2.
D) Nitrifiers-Gram-negative bacteria that obtain energy by oxidizing inorganic nitrogen compounds.
E) Mycobacteria-Gram-negative bacteria that group together to form complex fruiting bodies.

A) Borrelia AND Treponema
B) Clostridium AND Borrelia
C) Leptospira AND Escherichia
D) Treponema AND Bacillus
E) Escherichia AND Neisseria

A) The bacteria in the intestines are protected from exposure to the oxygen in the tissues by the lining of the intestines.
B) The bacteria consume all the oxygen in the tissue areas brought by the blood vessels, creating an anaerobic environment.
C) The inside space of the intestines is highly anaerobic. It is deep inside the body where oxygen cannot reach and it is not supplied with blood.
D) The aerobic microbes are outcompeted for nutrients in these areas by the anaerobic microbes.
E) The inside space of the intestines is highly anaerobic. It is deep inside the body where carbon dioxide accumulates.

A) There are far more obligate aerobes in any environment, so it is much easier to study them.
B) It is difficult to provide the right atmospheric environment to cultivate obligate anaerobes, so it's been harder to study them.
C) Only obligate aerobes cause disease, so we have had little reason to study obligate anaerobes.
D) The majority of obligate anaerobes are very nutritionally fastidious, which makes it difficult to study them.
E) It is difficult to provide the right temperature to cultivate obligate anaerobes, so it's been harder to study them.

A) Chlamydia AND Mycoplasma
B) Chlamydia, Mycoplasma, AND Micrococcus
C) Escherichia AND Erlichia
D) Chlamydia, Coxiella, AND Rickettsia
E) Mycoplasma, Chlamydia, Coxiella, AND Rickettsia

A) Tetanus
B) Botulism
C) Strep throat
D) Gas gangrene
E) Antibiotic-associated diarrheal disease

A) No. The coliforms in our intestines are usually harmful, causing intestinal infections. We need to constantly be on guard against this happening. Coliforms in water might add to this potential problem.
B) No. Not all coliforms are harmless to humans. It's best to keep coliforms OUT of our drinking water, since it's difficult to identify which ones might be harmless and which ones might be harmful.
C) No. Multiple types of coliforms in water might lead to greater antibiotic resistance in other aquatic bacteria, creating an environmental problem.
D) Yes. Regulatory agencies that monitor coliform levels in water simply need something to do to justify their existence. There is no real danger from coliforms in water supplies.
E) No. Clean water should not have any bacteria in it at all, so if any are present, they automatically pose a health risk to anyone swimming in or drinking that water.

A) Anaerobic, acidophilic mesophiles
B) Aerobic, acidophilic thermophiles
C) Microaerophilic, halotolerant basophiles
D) Aerobic, psychrophilic acidophiles
E) Psychrotrophic neutrophiles

A) i, ii, AND v
B) i, iii, AND v
C) iii AND iv
D) i AND ii
E) ii ONLY