QUESTION 8 Consider the reaction: Malate + NAD → Oxaloacetate + NADH (AG'º = +29.7 kJ/mol)...
Calculate AE for the following reaction; Oxaloacetate + NADH Malate + NAD+ E'' (Oxaloacetate /malate) = -0.15V 2e ; E (NAD+/NADH) = -0.32V 2e +0.17V -0.32V -0.477 +0.47V -0.17V
Consider the malate dehydrogenase reaction from the citric acid cycle. Given the listed concentrations, calculate the free energy change for this reaction at energy change for this reaction at 37.0°C (310 K), AG'' for the reaction is +29.7 kJ/mol. Assume that the reaction occurs at pH 7. (malate) = 1.33 mm [oxaloacetate] = 0.200 mm [NAD) - 440 mm [NADH) - 180 mM AG: 36.9 KJ-mol-
Consider the malate dehydrogenase reaction from the citric acid cycle. Given the listed concentrations, calculate the free energy change for this reaction at energy change for this reaction at 37.0 ∘ C (310 K). Δ G ∘ ′ for the reaction is + 29.7 kJ/mol . Assume that the reaction occurs at pH 7. thank you Consider the malate dehydrogenase reaction from the citric acid cycle. Given the listed concentrations, calculate the free energy change for this reaction at energy...
Consider the malate dehydrogenase reaction from the citric acid cycle. Given the listed concentrations, calculate the free energy change for this reaction at energy change for this reaction at 37.0°C (310 K). AG' for the reaction is +29.7 kJ/mol. Assume that the reaction occurs at pH 7. [malate) = 1.43 mm [oxaloacetate) = 0.150 mM [NAD+] = 220 mm [NADH] = 88 mm kJ.mol-1 AG:
Which sequence of amino acids would likely be found in the interior of a globular protein? GMWS IEDP HEKR DEAR Which of the following reactions is spontaneous in the forward direction when the reactants are my present in equirnolar amounts ? Glyceraldehyde 3 phosphate e Dihydroxyacetone phosphate creatine phosphate . ADP ATP creatine ADP. 1,3 bisphosphoglycerate 3 phosphoglycerate + ATP glycerol 3-phosphate + ADP = ATP glycerol NADH+ + H+ oxaloacetate NAD+ + malate NAD+ + pyruvate + COA NADH...
4. According to standard redox potentials, oxaloacetate-malate couple is more positive than that of NAD+-NADH couple. Therefore, the oxidation of malate to oxaloacetate has a positive free energy change under standard conditions. In the cell, malate is oxidized to oxaloacetate. Explain how this is possible without the use of ATP. (2)
47.7% Resources Ex Give Up? Which of the reactions are spontaneous (favorable)? glutamate + NAD+ +HO N H + a-ketoglutarate + NADH+H+ AG -3.7 kcal/mol CH,0 C,H,O, +H,0 AG = 3.1 kJ/mol CH,0,P + ATP C40P, + ADP AG = -14.2 kJ/mol DHAP glyceraldehyde-3-phosphate AG - 3.8 kJ/mol SEAR (I) CH+H, — C,H, AG = -150.97 kJ/mol L-malate + NAD+ oxaloacetate + NADH+H AG -29.7 kJ/mol U
SOS 4 & 5 bo V/pid. 2137185-at-content-na-15926494-2/courses/CHEM400,01-FA2018/CHEM400%20F18%2 4. When the glucocorticoid receptor binds to its receptor in the el... a. what is the effect of this binding on the expression of the Annexin I gene? b. what is the effect of this binding on the expression of the CoX-2 gene? c. what is the net effect on inflammation? 5. In step 7 of glycolysis, 1,3-BPG (1,3-bisphosphoglycerate) is converted into 3-PG (3- phosphoglycerate), and ATP is synthesized. The AG for this...
Malate dehydrogenase catalyses the reaction L-malate + NAD+ <==> oxaloacetate + NADH + H+ and the following results were obtained, calculate Km and Vmax?
5. During step six of glycolysis glyceraldehyde-3-phosphate (G3P) is converted to 1,3- bisphosphoglycerate (1,3-BPG) and NAD+ is converted to NADH. (You can ignore the concentration of protons in the upcoming calculation.) G3P + P + NAD+ = 1,3 - BPG + NADH + H+ In the human erythrocyte, the concentration of G3P is 0.019 mm, the concentration of 1,3-BPG is 0.001 mM, the concentration of P, is 1.0 mm, and the ratio of NAD+ to NADH is 1000 to 1....