The kinetics data shown in this graph are from the enzyme lactate dehydrognase, which catalyzes the redox reaction lactate + NAD* <-> pyruvate + NADH. Calculate the Km and Vmax values with correct units. 0.04 0.03 1/vo (min uM) 0.02 Recall: 0.01 Vo = Vmax[S]/(Km + [S]) 1/vo = (K/Vmax)(1/[S]) + 1/Vmax -0.02 -0.01 0.01 0.02 0.03 0.04 0.05 0.06 0.07 1/[NAD*] (uM1)
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![The kinetics data shown in this graph are from the enzyme lactate dehydrognase, which catalyzes the redox reaction lactate + NAD* <-> pyruvate + NADH.
Calculate the Km and Vmax values with correct units
0.04
0.03
1/vo
(min uM-) 0.02
Recall:
0.01
Vo = Vmax[S]/(Km + [S])
1/vo = (K/Vmax)(1/[S]) + 1/Vmax
-0.02
-0.01
0.01
0.02
0.03
0.04
0.05
0.06
0.07
1/[NAD*] (µM)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F94d9d6f7-b157-403a-851b-79bd19c538db%2F10aa0637-f247-4641-b594-1ed6d950eefc%2Fv2o2wkr_processed.jpeg&w=3840&q=75)
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- Calculate the ΔG for Malate dehydrogenase reaction of CAC if the concentration of oxaloacetate is 1x 10-8 M, malate is 0.2 mM, NAD+ is 10 mM and NADH is 0.1 mM in rat liver mitochondria. ΔGo’ for this reaction is 30 kJ/mole. Please write the units of the final answer and the formula you are using to solve. R = 0.008314kJ/K*mol, T = 298KUnder standard conditions, NADH reoxidation by the electron-transport chain has a free-energy change equal to –220 kJ/mol. With 100% efficiency, how many ATP could be synthesized under standard conditions? What is the "actual" efficiency given these numbers?The complete combustion of palmitate and glucose yields 9781 kJ ∙ mol−1 and 2850 kJ ∙ mol−1 of free energy, respectively. Compare these values to the free energy (as ATP) obtained though catabolism of palmitate and glucose under standard conditions. Which process is more efficient?
- Your current Vmax (4x10-3 A/S) from the Michaelis-Menten plot has the units of A/s and was determined using 0.1 mg of ADH in a total volume of 1.25 mL. Use the Beer-Lambert equation followed by simple conversion to express your estimated Vmax in (mol )/s per 1 mg ADH. The molar absorptivity of NADH at 340 nm is 6220 L/(mol*cm).The half-reactions involved in the lactate dehydrogenase (LDH) reaction and their standard reduction potentials are (see attached)). Calculate ΔG at pH 7.0 for the LDH-catalyzed reduction of pyruvate under the following conditions: (a) [lactate]/[pyruvate] = 1 and [NAD+]/[NADH] = 1. (b) [lactate]/[pyruvate] = 160 and [NAD+]/[NADH] = 160. (c) [lactate]/[pyruvate] = 1000 and [NAD+]/[NADH] = 1000. (d) Discuss the eff ect of the concentration ratios in Parts a–c on the direction of the reaction.Given the following information, calculate the physiological ΔG of the isocitrate dehydrogenase reaction at 25°C and pH 7.0: [NAD+]/[NADH] = 8, [α-ketoglutarate] = 0.1 mM, and [isocitrate] = 0.02 mM. Assume standard conditions for CO2 (ΔG°′ is given in Table). Is this reaction a likely site for metabolic control?
- Given the following information on reduction potentials, calculate the standard free energy in kJ/mol based on your understanding of electron transfer through the pyruvate dehydrogenase complex. Round to nearest whole number. Lipoamide + 2H+ + 2e- → dihydrolipoamide ∆εο = -0.29 FAD + 2H+ + 2e- → FADH2 ∆εο = −0.01During electron transfer through the mitochondrial respiratory chain, the overall reaction is NADH + 1/2O2 + H+ arrow forward NAD+ + H2O. The difference in reduction potentials for the two half reactions (delta E) is +1.14 V. Show how you would calculate the standard free energy change, delta G, for the reaction as written. (faraday constant is 96.48 kj/vmol: R=8.314j/mol K=1.987 cal/mol KFor part (b) of this problem, use the following standard reduction potentials, free energies, and nonequilibrium concentrations of reactants and products: Consider the last two steps in the alcoholic fermentation of glucose by brewer’s yeast: pyruvate + NADH + 2H+ → ethanol + NAD+ + CO2 (a) Do you predict that ∆S° for this reaction is > 0 or < 0? (b) Calculate the nonequilibrium concentration of ethanol in yeast cells, if ∆G = -38.3 kJ/mol for this reaction at pH = 7.4 and 37 °C when the reactants and products are at the concentrations given above. (c) How would a drop in pH affect ∆G for the reaction described in part (b)? (d) How would an increase in intracellular CO2 levels affect ∆G for the reaction in part (b)? (e) How would an increase in intracellular CO2 levels affect ∆G°′ for the reaction in part (b)?
- A dialyzed pigeon liver extract will catalyze the conversion of acetyl-CoAto palmitate and CoASH if supplied with Mg2+, NADPH, ATP, HCO3-, andcitrate.(a) If H14CO3– is supplied, what compounds will become labeled (permanently or transiently) during the course of the reaction? In whatcompounds will 14C accumulate?(b) Explain the role of citrate in this reaction.A mutant version of DADH can use NADP+ as a cofactor for isopropanol oxidation. Velocity data was collected from reactions at a series of NADP+ concentrations. The following trendline was obtained for a Lineweaver-Burk plot of the data: y = 0.00007x + 0.0014 Note that the NADP+ substrate concentrations are in mM and the reaction velocity was measured in nmol/min. Calculate the Km and Vmax for DADH with this substrate. Show your work.The objective of this problem is to calculate the number of moles of reduced NAD and FAD generated per one mole of glucose consumed by bacteria, growing under aerobic conditions. The consumption of glucose by the bacteria is characterized as follows: for every 1 mole of glucose consumed, 70% is completely oxidized to CO2 and H2O, while 30% of the glucose is diverted to anabolic reactions prior to pyruvate undergoing oxidative decarboxylation. For the purposes of this problem, you should assume that all pyruvate coming to the TCA cycle is completely oxidized and none is diverted to anabolic processes at the diversion points of oxaloacetate, alpha-ketoglutarate or succinyl-CoA. Calculate the NADH and FADH generated