Deck 27: Bacteria and Archaea

A) karyoki
B) prophasic
C) histrionic
D) prophylactic
E) prokaryotic

A) transfers genes from parent to progeny
B) increases genetic diversity
C) is important for inferring phylogeny
D) can produce large genetic change
E) occurs commonly in bacteria

A) peristaltic pump
B) proton pump
C) osmotic pump
D) transferase
E) stile

A) undergoes photosynthesis
B) poisons natural bodies of water
C) generates oxygen
D) generates methane
E) detects the Earth's magnetic field

A) rods
B) spheres
C) octagons
D) curved shapes
E) spirals

A) protects against the host's immune system
B) binds nutrients
C) serves as a flotation device
D) prevents desiccation (drying out)
E) protects against ultraviolet radiation

A) a biofilm
B) a dentifrice
C) halitosis
D) a dontoid layer
E) annealed enamel

A) pre-sociality
B) muco-aggregation
C) archae sociality
D) quorum sensing
E) mass-settling

A) They have a thicker peptidoglycan layer than do Gram-negative bacteria.
B) They turn purple when subjected to the Gram-staining process whereas Gram-negative bacteria stain pink.
C) They lack the lipopolysaccharide that Gram-negative bacteria have.
D) They fluoresce at a different color than do Gram-negative bacteria.
E) They have a gram molecular weight of more than 1.0 whereas Gram-negative bacteria have a gram molecular weight of less than 1.0.

A) Eukaryotic flagella have microtubules in a cytoskeleton whereas prokaryotic ones do not.
B) Eukaryotic flagella have the motor protein dynein whereas the prokaryotic one does not.
C) The eukaryotic flagellum is covered by the plasma membrane whereas that of the prokaryotes is not.
D) Prokaryotic flagella have a basal apparatus and hook that rotates the filament whereas eukaryotic flagella do not.
E) The filament of eukaryotes is multilayered whereas that of prokaryotes is a single strand.

A) flagella
B) gas vesicles
C) microtubules
D) filament
E) pili

A) cell division by meiosis
B) cell division by mitosis
C) cell division by simple splitting
D) fluorescent in situ hybridization (FISH)
E) exchange of genes between two cells

A) pneumonia
B) botulism
C) anthrax
D) tetanus
E) lockjaw

A) ten weeks old
B) ten years old
C) 7,000 years old
D) 25 million years old
E) 250 million years old

A) conjugation
B) transduction
C) transformation
D) transubstantiation
E) interchange

A) the reproductive parts of bacteria
B) malformation of flowers caused by bacterial infections
C) unusual coloring of the water of lakes, ponds, or the sea caused by high numbers of bacteria
D) souring of milk caused by bacteria
E) swelling of a wound because of bacterial infection

A) atmospheric nitrogen; bacterial nitrogenase; ammonia; conversion by plants or algae; synthesis of proteins
B) atmospheric nitrogen; bacterial nitrogenase; conversion by plants or algae; ammonia; synthesis of proteins
C) atmospheric nitrogen; ammonia; bacterial nitrogenase; conversion by plants or algae; synthesis of proteins
D) atmospheric nitrogen; ammonia; bacterial nitrogenase; synthesis of proteins; conversion by plants or algae
E) none of the other options displayed

A) fertilizers
B) nitrophiles
C) diazotrophs
D) nodules
E) none of the options listed

A) a pathogen
B) a parasite
C) an archaean
D) a methanogen
E) a mutualistic relationship

A) mutualism
B) bonding
C) parasitism
D) sociality
E) none of the other choices provided

A) nitrogen fixer
B) autotroph
C) heterotroph
D) methanogen
E) mutualist

A) Type III systems bind to the cellular membrane by slimy mucilage and toxins diffuse across the membrane, whereas Type IV systems infect materials using pili as transfer tubes.
B) Type IV systems bind to the cellular membrane by slimy mucilage and toxins diffuse across the membrane, whereas Type III systems infect materials using pili as transfer tubes.
C) Both systems attach to cells in the same way but they differ merely in the chemicals that they inject into the host cell.
D) Type III systems use flagella modified as "syringes" to inject materials into cells they are infecting whereas Type IV systems use modified pili as transfer tubes.
E) Type IV systems use flagella modified as "syringes" to inject materials into cells they are infecting whereas Type III systems use modified pili as transfer tubes.

A) orientation with respect to the Earth's magnetic field
B) move to other bacteria and aggregate with them in response to chemical signals
C) find nutrients by moving upward in the water column with the aid of flotation devices
D) respond to other individual bacteria and transmit DNA via conjugation
E) none of the other options presented

A) developed the Gram-stain technique
B) devised the metric system of weights (milligrams, grams, kilograms)
C) developed the procedures for determining whether a particular organism causes a specific disease
D) developed both the Gram stain and the method of determining whether a particular organism causes a specific disease
E) none of the other options presented