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

The glucose/glucose-6-phosphate substrate cycle involves distinct reactions of glycolysis and gluconeogenesis that interconvert these two metabolites....

The glucose/glucose-6-phosphate substrate cycle involves distinct reactions of glycolysis and gluconeogenesis that interconvert these two metabolites. Assume that under physiological conditions, [ATP]=[ADP] and [Pi]=1mM. Consider the following glycolytic reaction catalyzed by hexokinase: ATP+glucose⇌ADP+glucose−6−phosphateΔG∘′=−16.7kJ/mol Calculate the equilibrium constant (K) for this reaction at 298 K, From the equilibrium constant, calculate the maximum [glucose-6-phosphate]/[glucose] ratio that would exist under conditions where the reaction is still thermodynamically favorable. The reverse of this interconversion in gluconeogenesis is catalyzed by glucose-6-phosphatase: glucose−6−phosphate+H2O⇌glucose+PiΔG∘′=−13.8kJ/mol K= 262 for...

The first step of glucose metabolism is the formation of glucose-6-phosphate. Under a certain condition, Glucose...

The first step of glucose metabolism is the formation of glucose-6-phosphate. Under a certain condition, Glucose + ATP ⇌ Glucose-6-phosphate + ADP ΔG = - 17 kJ/mol at the same condition, ATP + H2O ⇌ ADP + Pi ΔG = - 30 kJ.mol-1 Calculate the free energy change of the following reaction: Glucose + Pi ⇌ Glucose-6-phosphate Please explain it as well as possible... Please help me figure out why the answer is 13 Kj/Mol... I keep on getting confused...

Glucose to glucose-6-phosphate is a catabolic reaction in the first step of glycolysis...where glucose is phosphorylating...

Glucose to glucose-6-phosphate is a catabolic reaction in the first step of glycolysis...where glucose is phosphorylating to glucose-6-phosphate. Here ATP is converted to ADP so that the conversion can take place! There is investment of energy...Then why is it a catabolic reaction? Because when we talk about anabolic reactions, we say there is an investment of energy. Then why in the reaction I mentioned above, although it is a catabolic reaction, why is there an ATP used or in other...

The conversion of glucose to glucose-6-phosphate is the first reaction of glycolysis. This reaction requires hexokinase,...

The conversion of glucose to glucose-6-phosphate is the first reaction of glycolysis. This reaction requires hexokinase, Mg2+ ions as enzyme and cofactor, and ATP as substrate. What is the significance of Mg2+ ions in this 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

For the uncoupled and coupled reactions glucose + phosphate → glucose-6-phosphate, ΔG°' = +13.8 kJ/mol glucose...

For the uncoupled and coupled reactions glucose + phosphate → glucose-6-phosphate, ΔG°' = +13.8 kJ/mol glucose + ATP → glucose-6-phosphate + ADP, ΔG°' = -16.7 kJ/mol By how much does coupling to ATP increase the apparent equilibrium constant for the formation of glucose-6-phosphate? Given R = 8.315 J/mol · K. T = 298 K. a) 1.2 times b) 2.2 × 105 times c) 2.2 × 108 times d) 4.5 × 10-6 times

For the isomerization of glucose-1-phosphate to glucose-6-phosphate, the ΔG°′ = -7.28 (correct?). [Express your answer in...

For the isomerization of glucose-1-phosphate to glucose-6-phosphate, the ΔG°′ = -7.28 (correct?). [Express your answer in kJ/mol using 2 significant figures.] the tolerance is +/-2% At 37°C and concentrations of 5 mM glucose-6-phosphate and 0.1 mM glucose-1-phosphate, the ΔG = . [Express your answer in kJ/mol using 2 significant figures.] the tolerance is +/-2% Under these differing conditions, the isomerization of G1P to G6P is spontaneous under the 25C or 37C? Phosphoenolpyruvate Delta G = −61.9 1,3-Bisphosphoglycerate −49.4 ATP →...

The direct phosphorylation of glucose by inorganic phosphate is a thermodynamically unfavorable reaction: glucose+Pi→glucoseglucose+Pi→glucose-66-phosphate+H2Ophosphate+H2O ΔG∘′=+3.3kcal/molΔG∘′=+3.3kcal/mol In...

The direct phosphorylation of glucose by inorganic phosphate is a thermodynamically unfavorable reaction: glucose+Pi→glucoseglucose+Pi→glucose-66-phosphate+H2Ophosphate+H2O ΔG∘′=+3.3kcal/molΔG∘′=+3.3kcal/mol In the cell, glucose phosphorylation is accomplished by coupling the reaction to the hydrolysis of ATPATP, a highly exergonic reaction: ATP+H2O→ADP+PiATP+H2O→ADP+Pi ΔG∘′=−7.3kcal/molΔG∘′=−7.3kcal/mol Typical concentrations of these intermediates in yeast cells are as follows: [glucose-6-phospate] = 0.08mMmM [ATP]=1.8mM[ATP]=1.8mM [Pi]=1.0mM[Pi]=1.0mM [ADP]=0.15mM[ADP]=0.15mM Assume a temperature of 25∘C∘C for all calculations. What minimum concentration of glucose would have to be maintained in a yeast cell for the coupled reaction...

Consider the given interconversion, which occurs in glycolysis. fructose 6-phosphate↽−−⇀glucose 6-phosphate ?′eq=1.97 What is Δ?′∘ for...

Consider the given interconversion, which occurs in glycolysis. fructose 6-phosphate↽−−⇀glucose 6-phosphate ?′eq=1.97 What is Δ?′∘ for the reaction (?′eq measured at 25 °C)? Δ?′∘= kJ/mol If the concentration of fructose 6‑phosphate is adjusted to 1.2 M and that of glucose 6‑phosphate is adjusted to 0.65 M, what is Δ?? Δ?= kJ/mol Which statements are consistent with the conditions at which Δ?′∘ is measured? The temperature is 273 K. The pH is 7. The initial concentrations of reactant and product are...

The conversion of glucose 6-phosphate in the second step of glycolysis is a(n) _______ reaction: a....

The conversion of glucose 6-phosphate in the second step of glycolysis is a(n) _______ reaction: a. Reduction b. Dehydration c. Isomerization d. Phosphorylation e. Oxidation