The following molecules act as either inhibitors or activators of the enzyme that converts phosphoenolpyruvate (PEP) to pyruvate. Which do you think are inhibitors? A NADH B) Acetyl CoA ATP PEP
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- Decylic acid is a saturated fatty acid that occurs naturally in coconut oil and palm kernel oil. Calculate the net ATP yield when decylic acid undergoes complete B oxidation. The formula of decylic acid is shown below: (Given: The oxidation of one NADH yields 2.5 ATP; the oxidation of one FADH2 yields 1.5 ATP; and the oxidation of one acetyl CoA yields 10 ATP.) O 50 ATP O 52 ATP 66 ATP OH O 64 ATPCan you please pick the right answer in each parentheses (a) to (e)? Coenzymes are nonprotein compounds that are required for the activity of certain enzymes. One critical coenzyme central to metabolism is NAD+. In fact it is one of 5 coenzymes required by (a)< "pyruvate dehyrogenase" vs "citrate synthase" > , the critical enzyme for producing Acetyl-CoA. NAD+ is synthesized from (b)< "niacin (vitamin B3)" vs "acetate" > as was discovered to be critical for health by two American scientists, (c)<"Joseph Goldberger and Conrad Elvehjem" vs "Linus Pauling and Eric Lander"> , in the early 20th century. Dietary lack of this critical molecule produces pellagra, characterized by the following symptoms: (d)<"skin inflammation, dementia, diarrhea" vs "chorea-like movement">. People with these problems were found in parts of the U.S. where diets lacked vegetables and consisted principally of corn. Interestingly, soaking the corn in (e)<"salt water" vs…Arsenate (AsO43− ), a structural analog of phosphate, can act as a substrate for any reaction in which phosphate is a substrate. Arsenate esters, unlike phosphate esters, are kinetically as well as thermodynamically unstable and hydrolyze almost instantaneously. Write a balanced overall equation for the conversion of glucose to pyruvate in the presence of ATP, ADP, NAD+, and either (a) phosphate or (b) arsenate. (c) Why is arsenate a poison?
- The pyruvate dehydrogenase complex catalyzes the oxidative decarboxylation of pyruvate to form acetyl‑CoA. E1E1 , E2E2 , and E3E3 are abbreviations for the enzymes of the complex. Classify the enzyme names, prosthetic groups, and reactions as E1E1 , E2E2 , or E3E3 .Imagine a triglyceride comprised of (3) saturated C12 fatty acids. Calculate the number of ATP generated from the complete oxidation of one of these 12-carbon fatty acids to CO2 and water in the liver. Assume that each NADH = 2.5 ATP and each FADH2 = ETC generates 1.5 ATP. Any step that yields pyrophosphate as a product should be treated as an input (i.e. net loss) of (2) ATP.Acetyi CoA Oxaloncetate CoA NADH Citrate NAD Isocitrate Malate Funiarate NAD co NADH FADH, FAD a- Ketoghutarate Succinate co, NAD+ ATP Succinyl CuA NADH ADP - P For each molecule of glucose (C6H12O6) oxidized by cellular respiration, how many moles of CO2 are released in the citric acid cycle? (see the figure above) а. 2 b. 4 с. 6 d. 0 е. 3
- The glutamate dehydrogenase (GDH) catalyses the following reaction: +H₂N- H - - CH₂ - CH₂ COO acide glutamique COO™® + NAD+ + H₂O GDH COO C: CH₂ CH₂ COO™ O + NH4+ NADH + H* The activity of GDH is monitored in the sense of the formation of glutamate using the following conditions: -0.2 mL of 5 M ammonium sulphate 2.4 mL of buffer at pH 8 0.1 mL of NADH at 6.15 mg.mL-¹ (M = 709 g.mol-¹) 0.2 mL of 1 M a-ketoglutarate solution Warm mixture at 25 °C for 5 min - Add 0.1 mL of GDH solution containing 1.6 mg.mL-¹protein to start the reaction. acide a-cétoglutarique The change in absorbance at 340 nm is monitored, in a 1-cm cuvette, every minute for 10 min. Results are given in the table below: Data: ENADH at 340 nm = 6220 M¹.cm¹ Time (min) 1 2 3 4 5 6 7 8 9 1.760 1.718 1.675 1.635 1.595 1.550 1.510 1.489 1.476 A340 10 1.451 - Draw the graph A = f(t). Calculate A340 at t = 0 and place this point on the curve. - Comment the shape of the curve, particularly the portion that corresponds to a…(c) (1 ) Fluoroacetate, prepared commercially for rodent control, is also produced by a South Afri- can plant. After entering a cell, fluoroacetate is converted to fluoroacetyl-CoA in a reaction catalyzed by the enzyme acetate thiokinase: F-CH2COO¯ + COA-SH + ATP F-CH2CO-SCOA + AMP + PPj The toxic effect of fluoroacetate was studied in an experiment using intact isolated rat heart. After the heart was perfused with 0.22 mM fluoroacetate, the measured rate of glucose uptake and glycolysis decreased, and glucose 6-phosphate and fructose 6-phosphate accumulated. Examination of the cit- ric acid cycle intermediates revealed that their concentrations were below normal, except for citrate, with a concentration 10-fold higher than normal. Where did the block in the citric acid cycle occur? What caused citrate to accumulate and the other cycle intermediates to be depleted? Explain. Why does it block the citric acid cycle? Fluoroacetyl-CoA is enzymatically transformed in the citric acid cycle.…The glutamate dehydrogenase (GDH) catalyses the following reaction: H +H₂N- -C -COO CH₂ CH₂ COO™ acide glutamique + NAD + H₂O GDH Time (min) A340 COO™ c=o CH₂ 5 1 2 3 4 1.760 1.718 1.675 1.635 1.595 CH₂ COO + NH4+ NADH + H+ acide a-cétoglutarique The activity of GDH is monitored in the sense of the formation of glutamate using the following conditions: 0.2 mL of 5 M ammonium sulphate 2.4 mL of buffer at pH 8 0.1 mL of NADH at 6.15 mg.mL-¹ (M = 709 g.mol-¹) 0.2 mL of 1 M a-ketoglutarate solution Warm mixture at 25 °C for 5 min Add 0.1 mL of GDH solution containing 1.6 mg.mL-¹protein to start the reaction. The change in absorbance at 340 nm is monitored, in a 1-cm cuvette, every minute for 10 min. Results are given in the table below: Data ENADH at 340 nm = 6220 M¹.cm7 6 7 8 9 10 1.550 1.510 1.489 1.476 1.451 Calculate ammonium sulphate, NADH, concentrations in the reaction medium at t = 0. proteins - Draw the graph A = f(t). Calculate A340 at t = 0 and place this point on the curve. -…
- What is the quaternary structure of glycogen phosphorylase? How would you characterize the allosteric effects of its small molecule substrate? (one word) What allosteric model (mechanism) that you have learned does it seem to follow? (one acronym)During glycogen synthesis, glucose-1P is converted into a molecule called UDPG. This reaction also cleaves uridine triphosphate (UTP) forming uridine monophosphate and pyrophosphate (PPi). Provide four reasons why UTP can be used to power this reaction (no diagrams necessary).The glutamate dehydrogenase (GDH) catalyses the following reaction: *H3N- C H - CH₂ - CH₂ COO™ acide glutamique -COO + NAD+ + H₂O Time (min) A340 GDH COO™ с 5 1 2 3 4 1.760 1.718 1.675 1.635 1.595 CH₂ The answer: -1 - Vo 1.1.107 M.s-¹ - EA in 0.1 mL of GDH = 0.33 nkat CH₂ The activity of GDH is monitored in the sense of the formation of glutamate using the following conditions: 0.2 mL of 5 M ammonium sulphate 2.4 mL of buffer at pH 8 0.1 mL of NADH at 6.15 mg.mL-¹ (M = 709 g.mol-¹) 0.2 mL of 1 M a-ketoglutarate solution Warm mixture at 25 °C for 5 min Add 0.1 mL of GDH solution containing 1.6 mg.mL protein to start the reaction. COO CO acide a-cétoglutarique The change in absorbance at 340 nm is monitored, in a 1-cm cuvette, every minute for 10 min. Results are given in the table below: Data ENADH at 340 nm = 6220 M¹.cm¹ -1 + NH4+ NADH + H+ 6 1.550 7 8 10 9 1.510 1.489 1.476 1.451 Calculate the initial rate Vo of the reaction in M.s¹. - Calculate the enzyme activity of the volume of…