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Consider the following reactions: #1: ATP + H2O -> ADP +P, #2: Phosphocreatine + H20 —...
2. For the following reaction: ATP+ creatine + H2O creatine phosphate + ADP + P, The relevant half reactions are: ATP → ADP + Pi Creatine phosphate + H2O-> creatine AG-30.5 kJ/mol ΔG°,--43.1 kJ/mol a. (2 pts.) Calculate the ΔG°, for the overall reaction. b. (2 pts.) Is the reaction spontaneous or non-spontaneous? Endergonic or exergonic?
7. Consider the reactions below and their given standard free-energy changes. Phosphocreatine ↔ creatine + P i Δ G' ° = –43.0 kJ/mol ATP ↔ ADP + P i Δ G' ° = –30.5 kJ/mol A) What is the overall Δ G' ° for the following reaction? Phosphocreatine + ADP ↔ creatine + ATP B) Explain how phosphocreatine can be used as a kind of mechanism to STORE excess ATP during periods of rest. Why might this be necessary?
Given the following: phosphocreatine → creatine + Pi ΔG = −43.0 kJ/mol ATP → ADP + Pi ΔG = −30.5 kJ/mol What is the overall ΔG for the following Reaction? phosphocreatine + ADP → creatine + ATP A) -12.5 kJ/mol B) + 73.5 kJ/mol C) -73.5 kJ/mol D) + 12.5 kJ/mol
2. Hydrolysis of 0.5 M studentose catalyzed by teacherase to become successose is 95% complete at equilibrium (i.e., only 5% of the studentose remains). What is AG"? (R = 8.315 J/mol K; T = 298 K) 3. The standard free-energy changes for the reactions below are given. Phosphocreatine creatine + Pi AG"=-43.0 kJ/mol ATP → ADP + Pi AG" = -30.5 kJ/mol The overall AG" for the reaction: Phosphocreatine + ADP creatine + ATP, is _ A) -73.5 kJ/mol C)...
Question 11 1 pts Consider the hydrolysis of ATP: ATP(aq) + H2O(1) - ADP(aq) + P(aq). This reaction has AH°= -24.3 kJ/mol and AS - +21.6 J/mol-K. The actual concentrations of ATP, ADP, and Pi are not 1 Min a biological cell. How much energy can the conversion of ATP to ADP supply when it occurs at physiological conditions in E.coli where the temperature is 37°C and the approximate concentrations are ATP - 14.8 mM, ADP - 3.65 MM, P,...
Consider the hydrolysis of ATP: ATP(aq) + H2O(l) → ADP(aq) + Pi(aq). This reaction has ΔH°= −24.3 kJ/mol and ΔS°= +21.6 J/mol-K. The actual concentrations of ATP, ADP, and Pi are not 1 M in a biological cell. How much energy can the conversion of ATP to ADP supply when it occurs at physiological conditions in E. coli where the temperature is 37°C and the approximate concentrations are ATP = 11.2 mM, ADP = 1.52 mM, Pi = 20.0 mM?...
To answer this question, please reference the Problem Solving Video: Free Energy, ATP, and Creatine in Resting Muscles. The standard free energy, AGⓇ', value for an enzymatic reaction with several al components is the sum of the AGⓇ values for each component. Creatine kinase catalyzes the transfer of a phosphate group from creatine phosphate to ADP to form ATP. Standard Free Energy of Hydrolysis Standard E Compound kJ.mol-1 creatine phosphate -43.1 ATP (to ADP) -30.5 creatine phosphate +H,0 creatine +...
C6H12O2(glucose) + 6O2--> 6CO2 + H2O 32 ADP + 32Pi --> 32 H2O + 32 ATP DeltaG: -2900kJ/mol Delta G: 50 kJ/mol per ATP The input of energy required to synthesize ATP from ADP and Pi is due, in part, to: (Select all that apply) 1. increasing electrostatic repulsion in ATP. 2. resonance stabilization of the ADP form. 3. charge delocalization over the adenosine ring. 4. increased resonance stabilization of the released phosphate.
Question 25 of 25 > Attempt 2 - To answer this question, please reference the Problem Solving Video: Free Energy, ATP, and Creatine in Resting Muscles. The standard free energy (AG") of the creatine kinase reaction is - 12.6 kJ mol". The AG value of an in vitro creatine kinase reaction is -0.1 kJ mol". At the start of the reaction, the concentration of ATP is 5 mM, the concentration of creatine is 17 mm, and the concentration of creatine...
16) In the reaction catalyzed by hexokinase, the two half reactions and their AGº values are as follows. ATP + H20 ADP + P; AG° = -31 kJ/mol Pi + glucose #glucose-6-P + H20 AG°' = +14 kJ/mol The AG°' for the conversion of glucose to glucose-6-P with ATP as the phosphoryl donor is A) -45 kJ/mol B) -17 kJ/mol C) 0 kJ/mol D) 45 kJ/mol E) 17 kJ/mol