Deck 8: An Introduction to Microbial Metabolism: the Chemical Crossroads of Life

A)ATP synthase.
B)streptokinase.
C)penicillinase.
D)collagenase.
E)elastase.

A)anabolism.
B)catabolism.
C)phosphorylation.
D)fermentation.
E)biosynthesis.

A)exoenzymes.
B)endoenzymes.
C)constitutive enzymes.
D)induced enzymes.
E)conjugated enzymes.

A)phosphotransferases.
B)oxidoreductases.
C)decarboxylases.
D)aminotransferases.
E)ligases.

A)include synthesis of large carbohydrates.
B)only occur in heterotrophs.
C)occur during aerobic cellular respiration.
D)do not occur in anaerobic cellular respiration.
E)occur when ADP binds to inorganic phosphate to form ATP.

A)broken down in reactions that require energy input.
B)proteins that function as catalysts.
C)electron carrier molecules.
D)not needed for catabolic reactions.
E)All of the choices are correct.

A)ADP
B)glucose
C)carbon
D)hydrogen protons
E)carbon dioxide

A)negative feedback.
B)competitive inhibition.
C)enzyme induction.
D)enzyme repression.
E)None of the choices are correct.

A)catabolism.
B)redox reactions.
C)phosphorylation.
D)metabolism.
E)cellular respiration.

A)the final step of the Krebs cycle.
B)the first redox reaction of the electron transport system.
C)an example of oxidative phosphorylation.
D)an example of substrate-level phosphorylation.
E)an example of photophosphorylation.

A)denatured.
B)ribozymes.
C)abzymes.
D)exoenzymes.
E)extremozymes.

A)anabolism.
B)phosphorylation.
C)fermentation.
D)exergonic.
E)glycolysis.

A)substrates.
B)apoenzymes.
C)catalysts.
D)cofactors.
E)None of the choices are correct.

A)occurs without oxygen.
B)ends with formation of pyruvic acid.
C)occurs during fermentation.
D)degrades glucose to CO₂ and H₂O.
E)involves reduction of NAD.

A)is part of a simple enzyme.
B)is also called a coenzyme.
C)contains the active site.
D)is often an inorganic metal ion.
E)is an RNA molecule.

A)glycolysis.
B)electron transport system.
C)Krebs cycle.
D)fermentation.
E)oxidative phosphorylation.

A)ATP.
B)ADP.
C)pyruvic acid.
D)oxygen.
E)NAD.

A)vitamins.
B)metallic ions.
C)active sites.
D)substrates.
E)ribozymes.

A)coenzymes.
B)enzymes.
C)hydrogens.
D)inorganic phosphate.
E)All of the choices are correct.

A)glycolysis.
B)the TCA cycle.
C)the electron transport chain.
D)the phosphogluconate pathway.
E)lactic acid fermentation.

A)cell membrane.
B)mitochondria.
C)chloroplasts.
D)ribosomes.
E)cytoplasm.

A)is also called fermentation.
B)only involves glycolysis.
C)does not generate ATP.
D)utilizes an electron transport system.
E)uses the same final electron acceptors as aerobic respiration.

A)produces butyric acid.
B)occurs in all bacteria.
C)produces acids plus CO₂ and H₂ gases.
D)is seen in Streptococcus and Lactobacillus.
E)also produces ethanol.

A)2 ATP
B)3 ATP
C)24 ATP
D)36 ATP
E)38 ATP

A)alcohol only.
B)alcohol and oxygen.
C)alcohol and carbon dioxide.
D)carbon dioxide and yeast.
E)yeast and oxygen.

A)electron transport
B)Krebs cycle
C)glycolysis
D)processing of pyruvic acid for the Krebs cycle
E)All phases produce the same number of ATP molecules.

A)reduction of NAD
B)decarboxylation of pyruvic acid
C)coenzyme A attaches to an acetyl group
D)dehydrogenation of pyruvic acid
E)pyruvic acid accepts electrons from NADH

A)nitrate.
B)oxygen.
C)sulfate.
D)nitrite.
E)None of the choices are correct.

A)electron transport system
B)Krebs cycle
C)glycolysis
D)alcoholic fermentation
E)mixed acid fermentation

A)pyruvic acid
B)ATP
C)NAD
D)NADH
E)glucose

A)stops glycolysis.
B)stops the TCA cycle from turning.
C)stops the electron transport chain at coenzyme Q.
D)blocks cytochrome c oxidase.
E)inhibits the ATP synthase.

A)CO₂ and H₂gases.
B)methane gas.
C)lactic acid.
D)alcohol.
E)butyric acid.

A)2
B)3
C)24
D)36
E)38

A)pyruvic acid.
B)oxygen.
C)nitrate.
D)cytochrome c.
E)FAD.

A)ATP
B)phosphate
C)hydrogen ions
D)oxygen
E)NADH

A)They break down the cyanide before it enters the electron transport chain.
B)They shut off the TCA cycle until the cyanide is diluted out of the cell.
C)They lack cytochrome c oxidase.
D)They don't allow cyanide to cross their cell wall.
E)Cyanide is deadly for all bacteria.

A)exoenzymes.
B)endoenzymes.
C)constitutive enzymes.
D)induced enzymes.
E)conjugated enzymes.

A)2
B)3
C)24
D)36
E)38

A)2 ATP
B)3 ATP
C)24 ATP
D)36 ATP
E)38 ATP

A)H₂O, Oxygen
B)CO₂, C₆H₁₂O₆
C)H₂O, C₆H₁₂O₆
D)CO₂, Oxygen
E)All of the choices are correct

A)glucose.
B)fat.
C)vitamins.
D)minerals.
E)carbon.

A)in the nucleus.
B)in the endoplasmic reticulum.
C)in the cell membrane.
D)in the mitochondria.
E)in the cytoplasm.

A)Lysosome, flagella
B)Golgi body, mitochondria
C)Mitochondria, outer membrane space
D)Mitochondria, ribosome
E)SER, nucleus

A)in the mitochondria.
B)in the endoplasmic reticulum.
C)in the cell membrane.
D)in the nucleus.
E)in the cytoplasm.