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- Upon digestion of starch, isomaltose (an isomer of maltose), one of its degradation products, is further hydrolyzed into its monosaccharide components prior to intestinal absorption and entry into the glycolysis. Calculate the number of ATP molecules produced from the digestion and complete oxidation of 1 molecule of isomaltose considering the glycerol 3-phosphate shuttle. a. Total number of glucose molecules entering glycolysis: b. Total number of pyruvate molecules produced at the end of glycolysis: c. Total number of mitochondrial NADH produced after pyruvate is acted upon by the pyruvate dehydrogenase complex: d. Total number of CO2 released right after the pyruvate dehydrogenase complex reaction: e. Total number of acetyl CoA molecules entering the citric acid cycle: f. Total number of net cytosolic ATP molecules produced right after glycolysis: g. Total number of all NADH molecules produced after complete oxidation: h. Total number of all FADH2 molecules produced after…Upon digestion of starch, isomaltose (an isomer of maltose), one of its degradation products, is further hydrolyzed into its monosaccharide components prior to intestinal absorption and entry into the glycolysis. Calculate the number of ATP molecules produced from the digestion and complete oxidation of 4 molecules of isomaltose considering the glycerol 3-phosphate shuttle. a. Total number of glucose molecules entering glycolysis: b. Total number of pyruvate molecules produced at the end of glycolysis: c. Total number of mitochondrial NADH produced after pyruvate is acted upon by the pyruvate dehydrogenase complex: d. Total number of CO2 released right after the pyruvate dehydrogenase complex reaction: e. Total number of acetyl CoA molecules entering the citric acid cycle: f. Total number of net cytosolic ATP molecules produced right after glycolysis: g. Total number of all NADH molecules produced after complete oxidation: h. Total number of all FADH2 molecules produced after…Isomaltose (an isomer of maltose), one of the degradation products of starch is further hydrolyzed into its monosaccharide components prior to its intestinal absorption and entry into the glycolysis. Calculate the no. of ATP molecules produced from the digestion and complete oxidation of 1 molecule of isomaltose considering the glycerol-3-phosphate shuttle. Answer the ff.: a) Total no. of glucose molecules entering glycolysis b) Total no. of pyruvate mols. produced at the end of glycolysis c) Total no. of mitochondrial NADH produced after pyruvate is acted upon by pyruvate dehydrogenase complex d) Total no. of CO2 released right after the pyruvate dehydrogenase complex reaction e) Total no. of acetyl CoA mols. entering the Citric Acid Cycle f) Total no. of net cytosolic ATP mols. produced right after glycolysis g) Total no. of all NADH mols. produced after complete oxidation h) Total no. of all FADH2 mols. produced after complete oxidation i) Total no. of all mitochondrial…
- upon digestion of starch maltose, one of its degradation products is further hydrolyzed into its monosaccharide components prior to intestinal absorption and entry into the glycolysis. calculate the number of ATP molecules produced from the digestion and complete oxidation of 1 molecule of maltose considering the glycerol-3-phosphate shuttle. question: 9. what is the total number of net ATP molecules produced after complete oxidation?upon digestion of starch maltose, one of its degradation products is further hydrolyzed into its monosaccharide components prior to intestinal absorption and entry into the glycolysis. calculate the number of ATP molecules produced from the digestion and complete oxidation of 1 molecule of maltose considering the glycerol-3-phosphate shuttle. question: 1. what is the total number of glucose molecules entering glycolysis?Upon digestion of starch, isomaltose (an isomer of maltose), one of its degradation products, is further hydrolyzed into its monosaccharide components prior to its intestinal absortion and entry into the glycolysis. Calculate the no. of ATP molecules produced from the digestion and complete oxidation of 1 molecule of isomaltose considering the glycerol-3-phosphate shuttle. Answer the ff.: a) Total no. of glucose molecules entering glycolysis b) Total no. of pyruvate molecules produced at the end of glycolysis c) Total no. of mitochondrial NADH produced after pyruvate is acted upon by the pyruvate dehydrogenase complex d) Total no. of CO2 released right after the pyruvate dehydrogenase complex reaction e) Total no. of acetyl-CoA molecules entering the citric acid cycle f) Total no. of net cytosolic ATP molecules produced right after glycolysis g) Total no. of all NADH mols. produced after complete oxidation h)Total no. of all FADH2 mols. produced after complete oxidation i) Total…
- Indicate what will happen (increase, decrease or no effect) to the activity of enzyme or rate of the metabolic pathway given the following conditions: 1. epinephrine to the activity of glycogen synthase 2. high [2-carboxyarabinitol-1-phosphate] to the carboxylase activity of RuBisCOThe glucose/glucose-6-phosphate substrate cycle involves distinct reactions of glycolysis and gluconeogenesis that interconvert these two metabolites. Assume that under physiological conditions, [ATP] = [ADP]; [P;] = 1 mM. Consider the glycolytic reaction catalyzed by hexokinase: ATP + glucose ADP + glucose-6-phosphate AG = - 16.7 kJ/mol (a) Calculate the equilibrium constant (K) for this reaction at 298°K, and from that, calculate the maximum [glucose-6-phosphate]/ Iglucose] ratio that would exist under conditions where the reaction is still thermodynamically favorable. (b) Reversal of this interconversion in gluconeogenesis is catalyzed by glucose-6-phosphatase: glucose-6-phosphate + H20 = glucose + P AG" = -13.8 kJ/molThe inilial reactions in the biosynthesis of the amino acid aspartate at 298 K are: Carbamoyphoephate Cartamoyi + phosphate ADP + phoaphate - ATP AO=-12,300 calmol AG-T800 calimol Which of the following statements is gorrect? A) The energy which is released fron the conversion of 1 mole of carbamoyphosphate to carbamoyl+ phosphate (P) in reaction I is sufficient to drive the synthesis of 1 mole of ATP in reaction II. B) AG for the reaction Carbamoyphosphate + Carbamoyl + phosphate is +123 kcalimol. c) AHP for reaction I cannot be detemined trom the information given. D) Al of the above. E) None of the above.
- ATP Accounting Upon digestion of starch, maltose, one of its degradation products, is further hydrolyzed into its monosaccharide components prior to intestinal absorption and entry into the glycolysis. Calculate the number of ATP molecules produced from the digestion and complete oxidation of 1 molecule of maltose considering the malate-asparate shuttle. Answer the following items using numerical value only (e.g. 1, not "1 ATP") which will help you arrive at the final answer for this question. a. Total number of glucose molecules entering glycolysis: b. Total number of pyruvate molecules produced at the end of glycolysis: c. Total number of mitochondrial NADH produced after pyruvate is acted upon by the pyruvate dehydrogenase complex: d. Total number of CO2 released right after the pyruvate dehydrogenase complex reaction: e. Total number of acetyl CoA molecules entering the citric acid cycle:upon digestion of starch maltose, one of its degradation products is further hydrolyzed into its monosaccharide components prior to intestinal absorption and entry into the glycolysis. calculate the number of ATP molecules produced from the digestion and complete oxidation of 1 molecule of maltose considering the glycerol-3-phosphate shuttle. question: 2. what is the total number of pyruvate molecules produced at the end of glycolysis?upon digestion of starch maltose, one of its degradation products is further hydrolyzed into its monosaccharide components prior to intestinal absorption and entry into the glycolysis. calculate the number of ATP molecules produced from the digestion and complete oxidation of 1 molecule of maltose considering the glycerol-3-phosphate shuttle. question: 6. what is the total number of net cytosolic ATP molecules produced right after glycolysis