Creatine + ATP -------> Creatine phosphate + ADP The above equation has a standard free energy...

1) Creatine phosphate is produced by creatine kinase which transfers a phosphate group from ATP to...

1) Creatine phosphate is produced by creatine kinase which transfers a phosphate group from ATP to creatine to generate ADP and creatine phosphate. Calculate the ΔG°’ for the coupled reaction. (I calculated it to be -12.5 kJ/mol but I am not sure if this is right) 2) Calculate the ΔG for the reaction described above. The concentrations of creatine phosphate, creatine and ADP are 0.020 mM and the concentrations of the orthophosphate ion and ATP are 20 mM. Temperature is...

To answer this question, please reference the Problem Solving Video: Free Energy, ATP, and Creatine in...

To answer this question, please reference the Problem Solving Video: Free Energy, ATP, and Creatine in Resting Muscles. Suppose a sprinter's muscle tissue contains creatine phosphate at a concentration of 120 mM after dietary supplementation. The sprinter's muscle tissue also contains 4 mM ATP, 0.013 mM ADP, and 13 mM creatine. Use the table of the standard free energies of hydrolysis of phosphorylated compounds and the given concentrations to calculate the free energy change, ΔG, of the creatine kinase reaction...

Standard Free Energy of Hydrolysis, ∆ G o', of some organophosphate compounds (phosphate isreleased as one...

Standard Free Energy of Hydrolysis, ∆ G o', of some organophosphate compounds (phosphate isreleased as one of the products of hydrolysis)                                     Compound kJ/mol phosphoenolpyruvate -61.9 carbamyl phosphate -51.4 creatine phosphate -43.1 acetyl phosphate -42.2 ATP (to ADP) -30.5 Glucose-1-phosphate -20.9 Glucose-6-phosphate -13.8 Glycerol-3-phosphate -9.2 Use the table in the above table to calculate the ∆G o' (in kJ/mol) for the following reaction: ATP +  glucose --------> ADP  +  glucose-6-phosphate

The standard Gibbs free energy change for hydrolysis or pure ATP to pure ADP is -31KJ/mol....

The standard Gibbs free energy change for hydrolysis or pure ATP to pure ADP is -31KJ/mol. The reaction is written ATP = ADP +Pi. What is the Gibbs energy of reaction in an environment at 37 C in which the ATP, ADP, and Pi concentrations are all 1mmol/L or 1 µmol/L?

Calculate the ∆G˚´ for the first step of glycolysis (glucose + ATP ---> glucose-6-phosphate + ADP,...

Calculate the ∆G˚´ for the first step of glycolysis (glucose + ATP ---> glucose-6-phosphate + ADP, catalyzed by hexokinase), given the ∆G˚´ values of ATP hydrolysis and glucose-6-phosphate hydrolysis. (See notes, a biochemistry text, or an Internet resource for those ∆G˚´ values.) a) A positive value. b) Between 0 and –15 kJ/mol c) Between -15 and -25 kJ/mol d) Between –25 and -35 kJ/mol e) More negative than –35 kJ/mol

The standard free energy change for ATP hydrolysis is -30.5 kJ/mol. Therefore, the free energy change...

The standard free energy change for ATP hydrolysis is -30.5 kJ/mol. Therefore, the free energy change for this reaction in a cell in which the concentration of ATP, ADP, and Pi are 3.1 mM, 2.2 mM and 6.8 mM, respectively, and assuming a physiologically relevant temperature (37 °C), is: Answer -44.25 kJ/mol explain

The energy released is -151 kJ/mol. This energy can be converted into the synthesis of ATP...

The energy released is -151 kJ/mol. This energy can be converted into the synthesis of ATP at an efficiency of 0.7 (70% of the energy released is captured in ATP synthesis) and the oxidation of 1 succinate leads to the phosphorylation of 2 equivalents of ATP. Under these conditions, what is the maximum ratio of [ATP]/[ADP] attainable by oxidative phosphorylation when [Pi] = 1 mM? (Assume the free energy needed for ATP synthesis is +30.5 kJ/mol)

It’s demanding to measure the standard free-energy change associated with the hydrolysis of ATP because the...

It’s demanding to measure the standard free-energy change associated with the hydrolysis of ATP because the minute amount of ATP remaining at equilibrium is difficult to measure accurately. The value of ΔG'º can be calculated indirectly, however, from the equilibrium constants of two other reactions (the first of which should look familiar) that have less favorable equilibrium constants: glucose-6-phosphate + H2O à glucose + Pi                    Keq'=270 ATP + glucose à ADP + glucose-6-phosphate   Keq'=890 Using this information, calculate ΔG'º for...

Adenosine Tri-Phosphate (ATP) is a compound that provides energy for biochemical reactions in the body during...

Adenosine Tri-Phosphate (ATP) is a compound that provides energy for biochemical reactions in the body during hydrolysis. For hydrolysis of ATP at 37 ° C, ΔH (rxn) ° = -20 kJ / mol and ΔS (rxn) ° = +35 J / K.mol. Assuming that all of these thermodynamic properties are independent of temperature, take into account the temperature at which the equilibrium constant (K) for ATP hydrolysis becomes greater than 1

The equilibrium constant of a system, K, can be related to the standard free energy change,...

The equilibrium constant of a system, K, can be related to the standard free energy change, ΔG∘, using the following equation: ΔG∘=−RTlnK where T is a specified temperature in kelvins (usually 298 K) and R is equal to 8.314 J/(K⋅mol). Under conditions other than standard state, the following equation applies: ΔG=ΔG∘+RTlnQ In this equation, Q is the reaction quotient and is defined the same manner as K except that the concentrations or pressures used are not necessarily the equilibrium values....