The F1F0 ATP synthase couples ATP synthesis with? 1. The flow of H+ from the matrix...

1.) Let’s use glucose as the metabolic fuel for aerobic respiration. How many ATPs would be...

1.) Let’s use glucose as the metabolic fuel for aerobic respiration. How many ATPs would be formed if NAD+were the sole electron carrier cofactor formed throughout the metabolic pathways of glycolysis, the citric acid cycle, and oxidative phosphorylation? How many H+would have to be pumped from the intermembrane space and into the matrix for the ATP synthase to generate all of these ATPs? Answer question 2 (part a and b) but replace NAD+with FAD. In ATP synthase, describe the process...

How does ATP synthesis during the electron transport chain and chemiosmosis differ from the way ATP...

How does ATP synthesis during the electron transport chain and chemiosmosis differ from the way ATP is produced in glycolysis and the citric acid cycle?

1. Where does the electron transport chain process take place? in the inner membrane of mitochondria...

1. Where does the electron transport chain process take place? in the inner membrane of mitochondria in the outer membrane of mitochondria in the intermembrane space of mitochondria in the matrix of mitochondria 2. Which products of the citric acid cycle are funneled into the electron transport chain? only ATP only NAD+ and FADH2 only NADH and ATP NADH, FADH2, H+, and ATP NADH, FADH2, and H+ 3. How many molecules of CO2 are produced for each turn of the...

After synthesis by the ATP synthase complex ATP can readily diffuse from the mitochondrial matrix and...

After synthesis by the ATP synthase complex ATP can readily diffuse from the mitochondrial matrix and does not require any protein transporters. T/F? Which of the following statements best describes the consequence of ingesting a compound that stimulates ATP hydrolysis by plasma membrane Na+-K+ ATPase A. The pH gradient across the mitochondria membranes would increase B. The rate of conversion of NADH to NAD+ in the mitochondria would decrease C. Heat production would decrease D. The transfer of electrons to...

1)When is carbon dioxide (CO2)  first produced during cellular respiration? a) Glycolysis b)Pyruvate oxidation c) Citric acid...

1)When is carbon dioxide (CO2)  first produced during cellular respiration? a) Glycolysis b)Pyruvate oxidation c) Citric acid cycle d) Oxidative phosphorylation 2)What is pumped into the intermembrane space when electrons (e') fall down the electron transport chain? a) NADH b) ATP c) oxygen d) hydrogen ions NOTE: only one answer could be correct don't put two plz

Check your overall understanding of cellular respiration by matching each of the phrases below with one...

Check your overall understanding of cellular respiration by matching each of the phrases below with one of the three stages of the process. Use G for Glycolysis, C for Citric Acid Cycle, and OP for Oxidative Phosphorylation. _____ 1. Generates most of the ATP formed by cellular respiration. _____ 2. Begins the oxidation of glucose _____ 3. Occurs outside the mitochondrion _____ 4. Produces 4 ATP/ glucose, but 2 ATP/ glucose used to get it started _____ 5. Oxidizes NADH...

please answer all :) 1. The direct movement of substrates from one enzyme to the next...

please answer all :) 1. The direct movement of substrates from one enzyme to the next is called: an electron acceptor. substrate channeling. a protein complex. a cell with sufficient available water. a linker coenzyme. 2. What is substrate-level phosphorylation? phosphorylation of ATP coupled to an ion gradient ATP synthesis when the phosphate donor is a substrate with a high phosphoryl-transfer potential ATP and AMP synthesis from two molecules of ADP phosphorylation of glycolytic intermediates that have a high phosphoryl-transfer...

ii. During the transfer of acetyl CoA from the mitochondrion to the cytosol, malate will be...

ii. During the transfer of acetyl CoA from the mitochondrion to the cytosol, malate will be generated in the cytosol. Although malate can be brought back into the mitochondrion directly, it will instead be converted into pyruvate which then enters the mitochondrion. Why does this happen? 1 point a. The conversion of malate into pyruvate generates NADPH which can be used in fatty acid synthesis. b. Movement of malate into the mitochondrion requires a lot of energy. c. In the...

1. Actin filaments and microtubules have certain similarities. Which one of the following statements would NOT...

1. Actin filaments and microtubules have certain similarities. Which one of the following statements would NOT be a similarity between acting filaments and microtubules? a. They are both formed from globular protein monomers. b. They are both unstable and can form and then fall apart. c. They both involved bidding of a nucleotide triphosphate. d. They both form a hollow tube-like structure. 2. Which of the following characteristic is NOT TRUE regarding the function and structure of the enzyme ATP...

The universal reducing equivalents in the form of NADH, harnessed from glycolysis, PDH, & the TCA...

The universal reducing equivalents in the form of NADH, harnessed from glycolysis, PDH, & the TCA cycle, hand off their electrons to Complex # __________ of the electron transfer chain of the mitochondrial inner membrane. The universal reducing equivalent in the form of FADH2, generated by the enzyme called ________________ of the citric acid cycle, hands off its electrons to Complex # _________________ of the electron transfer chain. As electrons move down the electron transport chain, there is a net...