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Five NADH molecules in the mitochondria can be made into number of ATP. Show transcribed image...
How many net ATP molecules (equivalents of ATP, including those made directly, those made from NADH or FADH2 and GTP) are generated during the complete oxidation of 1 molecule of 1,3-bisphosphoglycerate (1,3BPG) in skeletal muscle? (hint: think about the NADH shuttles) Explain. The answer is 14.5 ATP molecules but explain to me how to get to that answer thank you
How many net ATP molecules (equivalents of ATP, including those made directly, those made from NADH or FADH2 and GTP) are generated during the complete oxidation of 1 molecule of 1,3-bisphosphoglycerate (1,3BPG) in skeletal muscle? (hint: think about the NADH shuttles). Explain.
30. A catabolic pathway in the mitochondria produces 2 NADH and 1 FADH2 molecules and has a Gof-126 kcal/mol. Calculate the energy efficiency in percentage (%) assuming that all NADH and FADH, molecule are converted into ATP (AG -7.3 kcal/mol). Would this be more or less efficient than cellular respiration (4 marks)
30. A catabolic pathway in the mitochondria produces 2 NADH and 1 FADH2 molecules and has a Gof-126 kcal/mol. Calculate the energy efficiency in percentage (%) assuming that...
If each NADH generates 3 ATP molecules and each FADH2 generates 2 ATP molecules, calculate the number of ATPmolecules generated from one saturated 12 ‑carbon fatty acid. (It is NOT 78ATP)
NADH --> NAD+ + 2e- + H+ Question options: demonstrates that NADH can reduce to other molecules is the equation for the reduction of NADH is the equation for the oxidation of NADH demonstrates that NADH can donate e- to other molecules Glycolysis results in Question options: the synthesis of ATP via substrate-level phosphorylation the complete oxidation of glucose the reduction of electron carriers the sythesis of ATP via oxidative phosphorylation Pyruvate oxidation (which happens twice for every molecule of...
1) Which of the following glycolysis intermediates can be generated from glycerol? dihydroxyacetone phosphate 1,3-bisphosphoglycerate glyceraldehyde-3-phosphate 3-phosphoglycerate 2) Which of the following is the oxidizing agent in the reaction that converts succinate to fumarate? FAD, NADH, NAD+, succinate, Coenzyme A, or FADH2 3) Five NADH molecules in the mitochondria can be made into _____ number of ATP.
What determines the maximum theoretical yield of ATP during glucose catabolism? O A. How the NADH made during glycolysis enter the mitochondria B. How the FADH2 made during glycolysis enter the mitochondria O C. NADH oxidizing at complex I or complex II OD. FADH2 oxidizing at complex I or complex II Reset Selection
What determines the maximum theoretical yield of ATP during glucose catabolism? O A. How the NADH made during glycolysis enter the mitochondria O B. How the FADH2 made during glycolysis enter the mitochondria OC. NADH oxidizing at complex lor complex II OD. FADH2 oxidizing at complex lor complex II Dorot Colontinn
Biochemistry II: Calculating ATP from beta-oxidation In calculating the number of ATP molecules generated by the beta-oxidation of a single fatty acid molecule with an even number of carbons, a) Identify how the P/O ratios can be used (what are their significance), and b) help me to construct a formula given the P/O value of 3 for NADH and 2 for FADH2.
Calculate the number of ATP generated from each of the given molecules. For this problem, use the values: 1 NADH provides the energy for the synthesis of 2.5 ATP. 1 FADH2 provides energy for the synthesis of 1.5 ATP. 4 NADH:___ ATP 2 acetyl-CoA:____ ATP 5 FADH2:____ATP 4 glucose: ___ ATP