Which of the following generates ATP? Click ALL that
apply.
oxidative phosphorylation
fermentation
Calvin cycle
photosystem I
photosystem II
citric acid cycle
oxidative phosphorylation is a process in which ATP is produced, ATP is produced from TCA ( first GTP is produced which is converted to ATP) and fermentation is the process by which pyruvate is converted to ethanol or lactic acid during this step no ATP is produced but during glycolysis 2 ATPs are produced and in Calvin cycle ATP is used, Photosystem I and II are 2 complexes in the thylakoid membrane which absorbs light, process of cyclic photosynthesis includes Photosystem I, which results in the production of ATP, so the answers are Oxidative phosphorylation, Citric acid cycle, fermentation and photosystem I.
Which of the following generates ATP? Click ALL that apply. oxidative phosphorylation fermentation Calvin cycle photosystem...
Which of the following reduces NAD+ to NADH? *photosystem I *glycolysis *fermentation *oxidative phosphorylation *citric acid cycle *Calvin cycle
Which of the following is true of fermentation? (Select all that apply.) ATP is generated via oxidative phosphorylation. Electrons are transferred to an endogenous electron acceptor. ATP is generated via substrate level phosphorylation. Glucose is fully oxidized in fermentation.
QUESTION 1 Which of the following processes/pathways CANNOT occur in the absence of O2? Oxidative phosphorylation Substrate level phosphorylation Oxidation of NADH Photosynthesis Fermentation 1 points QUESTION 2 Phosphofructokinase (PFK-1) is one of the most regulated enzymes in metabolism. Which of the following would be expected to be an allosteric inhibitor of PFK-1? Glucose Fructose-6-phosphate Acetyl CoA AMP 1 points QUESTION 3 Which of the following is a reactant of the first reaction of glycolysis? Glucose ADP ATP...
Which of the following produces the most ATP when glucose is completely oxidized A. Fermentation B. All of these processes produce about the same amount of ATP C. Oxidation of pyruvate to acetyl-CoA D. Citric acid cycle E. Glycolysis F. Oxidative phosphorylation
Which of the following is correct? O Most of the ATP are produced by substrate-level phosphorylation. O Glycolysis relies on substrate-level oxidation for the four ATP produced in this pathway. O Most ATP from cellular respiration are produced directly in the citric acid (Krebs) cycle. Each FADH2 yields about 1.5 ATP via oxidative phosphorylation. Submit Request Answer
Be able to label any and all steps in: glycolysis, the citric acid cycle and oxidative phosphorylation. Including (but not limited to): names of compounds, enzymes (for extra credit where stated), ATP produced, NADH and FADH2 produced, and the role or importance of main molecules. **Note: this is really three questions in one. Therefore, know how to label the sequences in 1. Glycolysis 2. The citric acid cycle and 3. Oxidative phosphorylation .
During which step(s) of cellular respiration does the cell generate ATP? Glycolysis Citric Acid Cycle Oxidative Phosphorylation A and B only are true B and C only are true A and C only are true A. B. and C are all true What is substrate-level phosphorylation? The phosphorylation of reactants by phosphatases an enzyme directly adds one phosphate at a time to a molecule Multiple phosphorylation's happening at the same time Phosphorylation that happens outside the mitochondria
11) (a) During fermentation, cells generate ATP via...circle all that apply Electron Transport Chain or Citric Acid Cycle or Glycolysis (b) If a cell ran out of NAD", then would that cell be able to continue performing glycolysis? If you say "no", then identify the specific step of glycolysis (draw it) that requires NAD. (c) During aerobic respiration, NAD* is regenerated when NADH donates its H atom to the electron transport chain. Explain how NAD is regenerated during fermentation. (d)...
The process by which ADP is converted to ATP takes place in the ___ and one of the processes by which this change occurs is known as ___. Select one: a. mitochondria/oxidative phosphorylation b. cytoplasm/oxidative phosphorylation c. mitochondria/citric acid cycle d. cytoplasm/citric acid cycle
Two related species metabolize glucose using the exact same pathways (glycolysis, citric acid cycle, oxidative phosphorylation). Experiments show, however, that species A generates only 83% of the ATP compared to species B when provided with the same amount of glucose. What could be a potential reason for this outcome? The ATP synthase of species A contains 8c subunits, while species B contains 10 c subunits. The ATP synthase of species A contains 12 c subunits, while species B contains 10...