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.

How many net ATP molecules (equivalents of ATP, including those made directly, those made from NADH...
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
4. Referring to the preceding
question, how and why does the net yield of ATP molecules differ in
mammalian muscle cells? Be specific.
3. Complete Table 2 to account for the net yield of ATP molecules produced from the oxidation of one glucose molecule in mammalian liver cells. (12 points) TABLE 2 Pathway # ATP #NADH #ATP made in ox-phos by this pathway's NADH #FADH2 # ATP made in ox-phos by this pathway's FADH Glycolysis Transition Reaction Citric Acid Cycle...
How many NADH, FADH2 and GTP molecules would be generated from complete catabolism of arachadonic acid? Write your answer as ( # NADH; # FADH2; # GTP)
List the steps where NADH is made.
a. List the step(s) where NADH is made. CH3-C-SCoA HSCOA b. List the step(s) where FADH2 is made. citrate c. Which step(s) release CO2? isocitrate malate d. Which step(s) release GTP (ATP)? Which step(s) is/are control points in the citric acid cycle? e. succinate succinyl COA (5 pts) Thirty-two ATP molecules are generated from the complete catabolism of one glucose molecule using the malate-aspartate shuttle. Explain in detail where the ATP molecules come...
What is the net yield of ATP (or equivalents) that can be
expected from this?
Please provided correct, detailed, and legible answer for
positive feedback. Thank you!
Question 2 1 pts Assume that one molecule of phosphoenolpyruvate (PEP) is catabolized under aerobic conditions. What is the net yield of ATP (or equivalents) that can be expected from this? Assume that re-oxidation of NADH via the electron transport chain yields the equivalent of 2.5 ATP, and that re-oxidation of FADH2 yields...
17. 10.00 ponts value 3 out of 3 attempts Ass Enter your answer in the provided box. How many ATP molecules are produced from each acetyl CoA molecule generated in p-oxidation that enters the citric acid cycle? 114 ATP molecules Enter your answer in numerical form in the provided box. TRY AGAIN Each acetyl CoA that enters the citric acid cycle produces GTP, NADH and FADH How many ATP form from each of those molecules? References eBook &Resources Difficulty. 2...
15. How many ATP in total are produced from a triglyceride made of 14 carbon chained fatty acids. Indicate the number of important products listed in the chart below for each stage of energy metabolism for the entire molecule. (12 marks) Process Reducing equivalents and ATP made from Triglyceride: (only input one number for each product listed in each stage) Total # of net ATP made per step (direct & indirect): Glycolysis Transitional Phase Beta Oxidation Krebs Cycle NADH: FADH:...
How many net ATP equivalents are generated by the complete break down of a 12-Carbon fatty acid molecule? CASH ATP Me AMP + 2HPO! Media CH,CH-CH-CH-C-8-Cai ACA PAD FADH, H CHYCH. - - H trasenyl-Con но нно CH, CH-C-c-e-s-Cell Он н NAD NADH 2. som CHÚCH-CCH,-c-8-CaA Thia CoA-SH CH/CH, -c-S-COACH, ----COA All AC 000 100 ATP O 95 ATP 124 ATP 097 ATP O 117 ATP O 146 ATP
Draw a flow chart for complete oxidation of glycerol. How many ATP molecules can be made from 1 molecule of table sugar?
1. When ONE molecule of glucose is totally oxidized to CO2 and H2O, how many net ATP molecules (or GTP equivalents) are made by oxidative phosphorylation, relative to the maximum yield?A. 30 out of 30 B. 12 out of 24 C. 26 out of 30 D. 4 out of 24 E. 4 out of 30 would the answer be E or C 2. The SEQUENCE OF THREE REACTIONS ( oxidation, hydration, and oxidation) occurs in which one(s)of the following pathways?...