Quiz 6 Questions and Answers

To attach bacteria to a microscope slide:
A. Alcohol
B. Bleach
C. UV light
D. Heat
E. Ignition
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To attach bacteria to a microscope slide:
A. Alcohol
B. Bleach
C. UV light
D. Heat
E. Ignition
Heat
To sterilize an inoculation loop:
A. Alcohol
B. Bleach
C. UV light
D. Heat
E. Ignition
Heat
To sterilize a bacterial spreader:
A. Alcohol
B. Bleach
C. UV light
D. Heat
E. Ignition
Alcohol
To remove the toxic treatment from the bacterial spreader:
A. Alcohol
B. Bleach
C. UV light
D. Heat
E. Ignition
Ignition
A careful Gram stain of a cyanobacterium is performed. The alcohol step removes all the photosynthetic pigments that would otherwise mask the Gram stain result. At the end of the Gram stain, the cells appear pink. This result tells you that the cyanobacterium:
A. has thick walls
B. has thin walls
C. has no walls
D. is gram positive
Has thin walls
What are the shapes of bacteria and cluster types (numbers)?
Uni - 1
Diplo - 2
Strepto - Many in a straight line
Staphylo - Cluster
Coccus - Circular
Bacillus - Rectangular
Spirillium - Spiral
Image: What are the shapes of bacteria and cluster types (numbers)?
First to publish sketches of bacteria:
A. Leeuwenhoek
B. Pasteur
C. Hennig
D. Schleiden and Schwann
Leeuwenhoek
Proposed the cell theory:
A. Leeuwenhoek
B. Pasteur
C. Hennig
D. Schleiden and Schwann
Schleiden and Schwann
Calvin cycle:
A. Cell Wall
B. Cell Membrane
C. Cytosol/Cytoplasm
D. Nucleoid
E. Ribosome
F. Mesosome/Thylakoid
Cytosol/Cytoplasm
ETS & Photophosphorylation:
A. Cell Wall
B. Cell Membrane
C. Cytosol/Cytoplasm
D. Nucleoid
E. Ribosome
F. Mesosome/Thylakoid
Mesosome/Thylakoid
Chlorophyll: A. Cell Wall B. Cell Membrane C. Cytosol/Cytoplasm D. Nucleoid E. Ribosome F. Mesosome/ThylakoidMesosome/ThylakoidLight reactions: A. Cell Wall B. Cell Membrane C. Cytosol/Cytoplasm D. Nucleoid E. Ribosome F. Mesosome/ThylakoidMesosome/ThylakoidProduces O2 for the atmosphere: A. Cell Wall B. Cell Membrane C. Cytosol/Cytoplasm D. Nucleoid E. Ribosome F. Mesosome/ThylakoidMesosome/ThylakoidGluconeogenesis: A. Cell Wall B. Cell Membrane C. Cytosol/Cytoplasm D. Nucleoid E. Ribosome F. Mesosome/ThylakoidCytosol/ChloroplastRequires O2: A. Glycolysis B. Light reactions C. Gluconeogenesis D. Krebs cycle E. Calvin cycle F. Fermentation G. Respiratory ETSRespiratory ETSProduces O2: A. Glycolysis B. Light reactions C. Gluconeogenesis D. Krebs cycle E. Calvin cycle F. Fermentation G. Respiratory ETSLight reactionsRequires CO2: A. Glycolysis B. Light reactions C. Gluconeogenesis D. Krebs cycle E. Calvin cycle F. Fermentation G. Respiratory ETSCalvin cycleAerobically produces CO2: A. Glycolysis B. Light reactions C. Gluconeogenesis D. Krebs cycle E. Calvin cycle F. Fermentation G. Respiratory ETSKrebs cycleAnaerobically produces CO2: A. Glycolysis B. Light reactions C. Gluconeogenesis D. Krebs cycle E. Calvin cycle F. Fermentation G. Respiratory ETSFermentationProduces pyruvic acid (pyruvate): A. Glycolysis B. Light reactions C. Gluconeogenesis D. Krebs cycle E. Calvin cycle F. Fermentation G. Respiratory ETSGlycolysis (or) Calvin cycleRequires pyruvic acid (pyruvate): A. Glycolysis B. Light reactions C. Gluconeogenesis D. Krebs cycle E. Calvin cycle F. Fermentation G. Respiratory ETSGluconeogenesisProduces sugars (C6H12O6): A. Glycolysis B. Light reactions C. Gluconeogenesis D. Krebs cycle E. Calvin cycle F. Fermentation G. Respiratory ETSGluconeogensisRequires sugars (C6H12O6): A. Glycolysis B. Light reactions C. Gluconeogenesis D. Krebs cycle E. Calvin cycle F. Fermentation G. Respiratory ETSGlycolysisThis structure would be found inside a cyanobacterial cell: A. 80s Ribosome B. Mitochondrion C. Thylakoid D. Chloroplast E. NucleusThylakoidA cyanobacterium has cells longer than wide, and forms clusters of cells; they would best be called: A. Streptococcus B. Staphylococcus C. Streptobacillus D. Staphylobacillus E. SpirillumStaphylobacillusProvided the respiration pathway for the first eukaryote having respiration: A. Archaeon B. Bacterium C. CyanobacteriumBacteriumProvided the photosynthesis pathway for the first eukaryote having photosynthesis: A. Archaeon B. Bacterium C. CyanobacteriumCyanobacteriumUsed its mesosomes to form an envelope for its nucleoid: A. Archaeon B. Bacterium C. CyanobacteriumArchaeonLost its wall to feed on larger food items thanks to its metabolism: A. Archaeon B. Bacterium C. CyanobacteriumArchaeonBecame a mitochondrion: A. Archaeon B. Bacterium C. CyanobacteriumBacteriumBecame a chloroplast: A. Archaeon B. Bacterium C. CyanobacteriumCyanobacteriumLost its gene for rubisco to its host: A. Archaeon B. Bacterium C. CyanobacteriumCyanobacteriumIts ribosomes evolved to have higher density: A. Archaeon B. Bacterium C. CyanobacteriumArchaeon