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- 12. Which of the following statement about coenzymes is not correct? The adenosine monophosphate component of NAD+ does not participate in the redox reaction. Ubiquinones such as coenzyme Q can be reduced in two steps involving one electron each. The flavins can transfer or take up electrons in single-electron steps but they are not able to undergo two-electron reductions. The oxidation of glucose is coupled to the generation of both NADH and FADH2. The 2’ hydroxyl group of the AMP portion of NAD+/NADH can be phosphorylated to become NADP+/NADPH.● 1.) Draw out the pathway for the biosynthesis of the following glycerophospholipid starting with choline, glycerol and the component fatty acids as it occurs in the liver tissue. Show the structures of all reactants and products, as well as the names of the enzymes. You do not need to draw the structures of ATP, NAD+, CoA, etc., but do show them as reactants or products in the appropriate places. You do not need to show the mechanisms of the enzymes. What is the name of the phospholipid? Us jure O • DISM 91 3.C6H3 UG OSEMSA QE F CH₂ CABJAD C-H H H₂C-O-P-0- ACELOj Pro ! H₂ C 212 32 CH3 f H3C -N-CH33. Answer the following questions about the metabolic pathway shown below: glutamate dehydrogenase e NH3 0-C-C-cH2-CH2-C- 0-C-CH-CH2-CH2-C-O + H,O + NAD + NH + NADH + H (a) Label the correct substances as the substrate, enzyme, and co-enzyme. (b) Which of the six classes does the enzyme of this reaction belong to? Why? (c) What is the name of the first molecule in this reaction? (d) Which metabolic pathway is this reaction likely to be a part of? A. glycolysis B. deamination C. beta-oxidation D. fermentation
- 1. Put together the sequence of components (numbers) that form the glycolysis pathway and the linked reaction. Choose the sequence from the following metabolites. Also mention the step in which NADH/FADH2 is formed along with the number. > Acetyl Co.A > Glucose. > Pyruvate. Fructose – 1, 6-bisphosphate > Glucose – 6 – phosphate. > Phosphoenol – pyruvate. > 1, 3 – Bisphosphoglycerate. > Glyceraldehyde 3-phosphate Fructose – 6 – phosphate > Glycerol 2-phosphate /2-phosphoglycerate. > Dihydroacetone – phosphate. > Glycerol – 3 – phosphate / 3- phosphoglycerate.1. Put together the sequence of components (numbers) that form the glycolysis pathway and the linked reaction. Choose the sequence from the following metabolites. Also mention the step in which NADH/FADH; is formed along with the number. > Acetyl ÇoA > Glucose. > Pyruvate. > Fructose – 1, 6-bisphosphate > Glucose – 6- phosphate. > Phosphoenol – pyruvate. > 1,3– Bisphosphoglycerate. > Glyceraldehyde 3-phosphate Fructose – 6– phosphate > Glycerol 2-phosphate /2-phosphoglycerate. Dihydroacetone – phosphate.11. Refer to the figure below. нн Н `NH2 NH2 N' N- 2e-+H* R NAD+ NADH NAD+ functions as a coenzyme in many enzyme-catalyzed reactions. The changes that take place in this coenzyme are the same for all of these reactions and are illustrated in the figure. It is likely that, in these reactions, NAD+ functions as an electron acceptor (reducing agent) in redox reactions. functions as an electron donor (oxidizing agent) in redox reactions. functions as a base in acid-base catalytic mechanisms. functions as an electron donor (oxidizing agent) in redox reactions. functions as an electron acceptor (oxidizing agent) in redox reactions. +Z-
- 1. (a) The reaction catalyzed by citrate synthase is the first step of the TCA cycle. In glycolysis, two key reactions to produce ATP occur because an unfavorable reaction is coupled to another reaction that is thermodynamically favorable. The reaction catalyzed by citrate synthase is similarly coupled to an unfavorable reaction in the TCA cycle. Write the unfavorable TCA reaction using structural formulas and write the key step that drives the two coupled reactions forward. What is the overall AG" of the coupled reactions? (b). K(yM) 25.7 Inhibitor Bromoacetyl-CoA ATP NADH 6800 8300 The inhibitor constants for three inhibitors of por- cine citrate synthase are summarized in the table on the right. The compounds were all determined to bind in the ac- tive site as competitive inhibitors of acetyl-CoA. Because they bind as competitive inhibitors, all three inhibitors must exhibit structural similarity to some part of acetyl-CoA. Look up in the textbook the structural formulas for…1. True / False: NADH dehydrogenase is the least electronegative complex of the ETC. 2. True / False: Most of the energy lost during the conversion of one form to another is as light. 3. True / False: The addition of a phosphate group is called phosphorylation. 4. True / False: The ETC pumps protons into the mitochondrial matrix. 5. True / False: FADH₂ transfers its electrons directly to cytochrome c. 6. True / False: FADH₂ is created exclusively during the citric acid cycle. 7. True/False: Alcohol fermentation occurs most commonly in animals and plants. 8. True / False: During fermentation, NAD* is regenerated when NADH is reduced. 9. True / False: The hydrolysis of ATP releases free energy. 10. True / False: Most of the CO₂ produced by cellular respiration is formed during ETC/chemiosmosis.Some cofactors that participate in the reactions of the citric acid cycle are indicated by letters. Identify the position of positions of NADH in the cycle by selecting the appropriate letter or letters designating its position(s) in the cycle diagram. COA CH, HO--Co, CH čo, 8 CO но-сн CH HC -Co, CO HO-CH LA Citric acid cycle H,0 co, -B COA | 4 Co, čo D.
- 1. Determine the answers of these multiple choices please its "a, b, c". Do not explain it, only determining the word or the answer. A) At the end of glycolysis, most of the energy of glucose undergoing aerobic respiration is found in the molecules: -Lactic acid -Of ATP's -Pyruvic acid -Of reduced NAD -Of PGAL B) The final product or final products of the light reaction during photosynthesis is or are: -PGA and carbon dioxide -Decomposition of ATP and water -ATP and NADPH2 training -Leribulose diphosphate (RDP) -ATP formation and carbon -Dioxide absorption: drugs C) Choose the substance that is produced during glycolysis and that will be sent to the Krebs cycle: -the pyruvate -lactic acid -the PGAL -The NADH -fructoseComplete the following diagram, using arrows to show the flow of electrons, for this reaction catalyzed by GAP dehydrogenase. Draw how the enzyme pocket appears as the reaction is completed. Indicate the product (if any). NAD+ ÇHOPO он Сys1. Explain the Chemiosmotic theory with regard to ATP generation in oxidative phosphorylation. 2. Explain how Phosphorylase activation differs between the liver and the muscle. What is the role of Epinephrine in Glycogen metabolism. 3. List all the materials required for beta-oxidation of cholesterol from six-carbon intermediate Mevalonate.