We have discussed the aerobic metabolism of glucose extensively in this class. To capture and use the energy in glucose to make ATP, we must utilize 4 different sequential pathways/steps. Startìng with one glucose molecule and eventually ending with CO,, H;O and ATP, list the 4 pathways/steps in order and tell me what molecules enter each pathway, and what the final products of each pathway are.
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- We have discussed the aerobic metabolism of glucose extensively in this class. To capture and use the energy in glucose to make ATP, we must utilize 4 different sequential pathways/steps. Starting with one glucose molecule and eventually ending with CO2, H20 and ATP, list the 4 pathways/steps in order and tell me what molecules enter each pathway, and what the final products of each pathway are.Under aerobic conditions of high ratios of NADH/NAD+ and ATP/ADP, as pyruvate is utilized for its carbon skeleton, which molecules would you expect to see significant radiolabeling in the liver? Select all that apply. **Please note some molecules contain more details, including not only molecule name, but location of the label. Pick the options that are accurate for the above situation. Glucose C-2 and C-5 Glucose C-1 and C-6 Glucose C-2 only Pyruvate C-1 Lactate C-2 for export CO, from TCA cycle shows some radiolabel Label is halved over many TCA cycles Oxaloacetate MalateUnder aerobic conditions of high ratios of NADH/NAD+ and ATP/ADP, as pyruvate is utilized for its carbon skeleton, which molecules would you expect to see significant radiolabeling in the liver? Select all that apply. **Please note some molecules contain more details, including not only molecule name, but location of the label. Pick the options that are accurate for the above situation. O Glucose C-2 and C-5 O Glucose C-1 and C-6 O Glucose C-2 only Pyruvate C-1 Lactate C-2 for export O CO2 from TCA cycle shows some radiolabel Label is halved over many TCA cycles Oxaloacetate O Malate
- create a detailed flow chart or diagram that will illustrate all the important features of the glycolytic pathway. I want you to place in your flow chart or diagram the following important information like: 1. the reactants and products of each step, 2. enzymes involved in each step, 3. important by-products generated in some steps, 4. type of the reaction of each step, 5. and the outline of the two stages of the pathway. Also, discuss briefly (4 sentences) how Galactose and Fructose enter the glycolytic pathway.Under aerobic conditions when glucose is limiting, with high ratios of NADH/NAD+ and ATP/ADP, as carbon-2 radiolabeled pyruvate is utilized for its carbon skeleton, which molecules would you expect to see significant radiolabeling in the liver? Select all that apply. **Please note some molecules contain more details, including not only molecule name, but location of the label. Pick the options that are accurate for the above situation. Glucose C-2 only Label is halved over many TCA cycles Oxaloacetate Glucose C-1 and C-6 Glucose C-2 and C-5 CO2 from TCA cycle shows some radiolabel Lactate C-2 for export Malate Pyruvate C-1Under aerobic conditions of high ratios of NADH/NAD+ and ATP/ADP, as pyruvate is utilized for its carbon skeleton, which molecules would you expect to see significant radiolabeling in the liver? Select all that apply. **Please note some molecules contain more details, including not only molecule name, but location of the label. Pick the options that are accurate for the above situation. 1. Glucose C2 & C5 2. Glucose C1 & C6 3. Glucose C2 only 4. Pyruvate C1 5. Lactate C2 for export 6.CO2 from TCA cycle shows some radiolabel 7. Label is halved over many TCA cycles 8. Oxaloacetate 9. Malate
- Calculate the total ATP produced in the catabolism of glucose. Follow the table provided below. If NADH = 3 ATP, If NADH = 2.5 АТР, FADH, 1.5 FADH, = 2 ATP ATP Glycolysis Pyruvate shuttle Krebs cycle ETC TOTAL If NADH = 3 ATP, If NADH = 2.5 %3D FADH2 = 2 ATP ATP, FADH2 = 1.5 ATP Alcohol Fermentation Lactic acid fermentationMatch each of the enzymes involved in de novo pyrimidine synthesis with the correct description: _______ Dihydroorotate dehydrogenase _______ UMP synthase_______ Carbamoyl phosphate synthetase II _______ TMP synthase _______ CTP synthetase_______ Aspartate transcarbamoylase _______ PRPP synthetase (A) attaches an aspartate to an activated carbamoyl molecule(B) bifunctional enzyme that combines a nitrogenase pyrimidine ring to an activated ribose(C) catalyzes the formation of the activated ribose sugar(D) uses glutamine to add an amine to a preformed nucleotide(E) produces the first cyclic nitrogenase ring during de novo pyrimidine synthesis(F) combines bicarbonate and nitrogen from glutamine in the first step of pyrimidine ring synthesis (G) uses a folate derivative to add a methyl group to a preformed nucleotideSort the following metabolic enzymes according to those involved only in glycolysis and those involved only in gluconeogenesis. (Note: Some of the enzymes may not be used.) Items (10 items) (Drag and drop into the appropriate area below) Fructose-1,6- bisphosphatase- 1 Categories Phosphoglycerat e kinase Aldolase Glycolysis Only Pyruvate kinase Enolase Gluconeogenesis Only Phosphofructoki nase-1 Phosphoenol uvate carboxykinas
- Consider ten glucose molecules that enter a cell. How many ATP can be generated by the complete catabolism of these into CO2 and H2O? If all ten are first incorporated into glycogen, liberated from glycogen, and then fully catabolized into CO2 and H2O, does the ATP tally increase, decrease or stay the same? Consider that 1 UTP = 1 ATP. Explain. Describe the processes which produce ATP and provide a balanced equation of glucose, CO2, H2O and O2List the three different routes to catabolize glucose to Why is it necessary to start by spending one or two molecules of ATP? Why are glucose catabolism pathways ubiquitous, even in bacterial habitats where glucose is scarce? Give several Summarize the Krebs TCA cycle; list the substrates, and products.Complete the sentence describing the pentose phosphate pathway in cells that require much more ribose 5-phosphate than NADPH. These cells need ribose 5-phosphate but have relatively higher concentrations of NADPH and lower concentrations of NADP*. Choose from the listed words to fill in the blanks: xylulose 5-phosphate, fructose 6-phosphate, glucose 6-phosphate, five, two, three, glyceraldehyde 3- phosphate, erythrose 4-phosphate, sedoheptulose 7-phosphate. One molecule of and two molecules of are used to generate molecules of ribose 5-phosphate by the reverse reactions of the nonoxidative phase of the pentose phosphate pathway.