The equilibrium constant for the hydrolysis of the peptide alanylglycine (Gly-Ala in the reaction from Part B) by a peptidase is \( K = 9.0 \times 10^2 \) at 310 K.**Calculate \( \Delta G \) for this reaction.****Express the Gibbs free energy to three significant figures.****Equation:**\[K_{\text{eq}} = \frac{[\text{Gly}][\text{Ala}]}{[\text{Gly-Ala}]}\]**Input Section:**- A field is provided to enter the value of \( \Delta G \) measured in kJ/mol.- Buttons for functions such as clearing input, checking answers, and accessing additional tools are included.**Submission:**- A "Submit" button is available for submitting your answer.- A "Request Answer" option is provided for further assistance.**Note:** Make sure to perform the calculation in alignment with the principles of thermodynamics, using the given equilibrium constant and temperature.

The Gibbs free energy (G) of a system is a measure of the amount of usable energy in that system.The…

Answered: The equilibrium constant for the…

Biochemistry

9th Edition

ISBN:9781319114671

Author:Lubert Stryer, Jeremy M. Berg, John L. Tymoczko, Gregory J. Gatto Jr.

Publisher:Lubert Stryer, Jeremy M. Berg, John L. Tymoczko, Gregory J. Gatto Jr.

Chapter1: Biochemistry: An Evolving Science

Section: Chapter Questions

Problem 1P

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Phosphoglycerate-mutase catalyses the isomerization of 3-phospho-glycerate to 2-phospho-glycerate. The enzyme has a molecular weight of 28,556 g/mol. In assays using 1 milligram of enzyme per assay the Km for 3-phosphoglycerate was 1.2 x 10^-3M and the Vmax was 840 μmole min^-1. What would be the Vmax in units of mole s^-1?
In the pyrimidine degradative pathway, all pyrimidines undergo conversion to uracil, which undergoes an NADPH-dependent reduction. Show plausible reactions leading from cytidine, cytosine, and uridine to uracil, and write a plausible structure for the product of uracil reduction (dihydrouracil).
Use the two Fischer projections shown below to draw the Haworth projection of these two sugars linked by an a(1-2) linkage, with the ß isoform of the ketohexose. H H ㅎ HO H H OH OH ОН Н НО CH₂OH 애,애애 OH CH₂OH OH H OH OH OH I OH CH₂OH OH OH OH Eng са CH2OH CH2OH OH OH ОН ОН CH₂OH Н OH Н Н OH Н T I CH₂OH CH₂OH OH OH OH CH₂OH CH₂OH Н CH₂OH CH₂OH ОН OH OH НО OH H Н OH CH₂OH
5) In the below two step transformation, the first step AG is positive i.e. 1.7 kJ/mol. Yet this two step coupled reaction takes place to form Fructose-1.6-bisphosphate. Explain why?" C-H CH-OH CH,-0 H-C-OH AG"- 1.7 KJ/mol (+0.4 kcalmol) C=0 AG"=-14.2 k/mol(-3.4 kcalmol) HO-C-H HO-C-H HO-C-H H-C-OH H-C-OH H-C-OH H-C-OH H-C-OH ATP ADP H-C-OH CH-0-P. CH,-0-P-o- CH,-o- Glucose-6-phosphate Fructose-6-phosphate Fructose-1,6-bisphosphate
The Keq (25C) of the reaction below is 635.67. Fructose 1,6-biphosphate <-->fructose -6-phosphate + Pi. a) What is the standard Gibbs free energy change for this reaction? b) if the concentrationof fructose 1,6 biphosphate is adjusted to 0.85 M and that of fructose 6 phosphate and phosphate adjusted to 0.055 M, what is the actual free energy change
3. 1,3-bisphosphglycerate has a high energy bond that can be used to phosphorylate ADP to make ATP according to the equation below. The free energy of hydrolysis of 1,3- bisphophoglycerate and ATP under standard conditions are -49.4 kJ/mol and -30.5 kJ/mol, respectively. If the [ATP] to [ADP] is about 4 in the cell, how much 1,3-bisphophoglycerate is needed relative to 3-phosphoglycerate to keep this formation of ATP spontaneous? -203PO. H- -OH -OPO3-² + ADP H- -OH -OPO3-² + ATP
8L.16.2
The standard Gibbs (free) energy of reaction (A,Gº') of the following reaction is equal to zero (at 25 °C and pH 7) pyruvate + aspartate Pyruvate, aspartate and L-alanine are mixed each at a concentration of 1 mM, without oxaloacetate. Calculate the molar concentrations of each compound when the reaction reaches equilibrium. oxaloacétate + L-alanine
Write a balanced equation for cach of the following reactions or reaction sequences. (a) The reaction catalyzed by PFK-2 (b) The conversion of 2 moles of oxaloacetate to glucose (c) The conversion of glucose to UDP-Gle (d) The conversion of 2 moles of glycerol to glucose (e) The conversion of 2 moles of malate to glucose-6-phosphate
Given the tri-acylglyceride (TAG) below as source of energy when administered from an organism's diet, H,C-O HC-0 H,C-o [A] Show the calculated maximum amount of ATP that could be generated by the full oxidation of the compound. Illustrate where the ATPS are derived from (show the reactions and enzymes involved). You can use general structure of the FFA in the reactions involved in the process. (B) Discuss the fate of the glycerol. (C] One of the FFAS derived from the TAG has the same carbon number as glucose. Compare the maximum yield of ATP derivable from this FFA as compared to the ATP yield from glucose.
[References) The AG" for the reaction ATP + H₂O ADP + P + H+ is -30.5 kJ mol'¹, Other organophosphate species also undergo hydrolysis of the phosphate moiety via a similar reaction. Determine the value of AG for the following reactions and indicate if the reaction will proceed spontaneously in the direction written if the reactants and products are initially in a 1:1 molar ratio. a. ATP + Glucose ADP+ Glucose-1-phosphate AG⁹¹ = kJ mol-1 The reaction is (The hydrolysis reaction for glucose-1-phosphate is Glucose-1-phosphate + H₂0 Glucose + P + H+; AG-20.9 kJ mol ¹.) b. ATP + Glutamate Carbamoyl phosphate + ADP AG The reaction is kJ mol-1 (The hydrolysis reaction for carbamoyl phosphate is Carbamoyl phosphate + H₂0 Glutamate + P, + H+ ; AG¹ = -51.4 kJ mol ¹.) Submit Answer Try Another Version 3 item attempts remaining
Calculate the standard free energy for creatine-phosphate hydrolysis in a cell where [creatine-P]=3 mM, [creatine]=2 mM, and [Pi]= 12.1 mM. Is the reaction exergonic or endogonic?

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The equilibrium constant for the hydrolysis of the peptide alanylglycine (Gly-Ala in the reaction from Part B) by a peptidase is K = 9.0 × 10² at 310 K. Calculate AG for this reaction. Express the Gibbs free energy to three significant figures. Keq [Gly] [Ala] [Gly-Ala]