Itemize the reactions of the citric acid cycle. Include reference to reactants, catalysts, products, control points and ultimate change in free energy.
Itemize the reactions of the citric acid cycle. Include reference to reactants, catalysts, products, control points...
Itemize the reactions of glycolysis. Include reference to reactants, catalysts, products, control points and ultimate change in free energy.
6. Citric Acid Cycle Draw the complete Citric Acid Cycle pathway, include: (a) Total number of steps in Citric Acid Cycle? (b) Specify the type of reaction in each step? (c) Name the enzymes in each step? (d) How many redox reactions are present in Citric Acid Cycle?
Fill out the blankets. (Citric Acid Cycle: The
Reactions)
Citric Acid Cycle: The Reactions
Draw all reactions in the citric Acip cycle that involves the production of NADH. Include structures of Reactants, products their names the name of the eneymes, whether the reaction is reversible lirreversible and any cofactors involved. why is the production of NAOH important?
2. Contrast the glycolysis and citric acid cycle pathways in terms of a) the overall reactants and products in each pathway, b) number of all energy molecules produced in each pathway, c) the key enzymes that are regulated and molecules which regulate them in each pathway and d) the location of each pathway (2 pts)
Three of the reactions seen in the glyoxylate cycle are also citric acid cycle reactions. Which two reactions are unique to the glyoxylate cycle? o 1 and 2 O 2 and 3 O 3 and 4 4 and 5 5 and 1 The following diagram shows a variation of the citric acid cycle called the glyoxylate cycle. Answer the following three questions using this pathway. S-COA COO COASH NADH AG=-30 kJ/mole coo H СОО NAD* Run 5 HO- co AG=0...
What are the delta G values for the reactions of the citric acid cycle? Which of the reactions are far from equilibrium and which are near equilibrium?
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...
Do the points of regulation in the citric acid cycle match up to branch points in the cycle? Describe the branch points.
Draw the complete TCA cycle (Krebs or Citric acid cycle). Show the entry of acetyl- COA and the eight intermediates. Draw the chemical structures of each compound. Show the control point(s) in the pathway. Show where all CO2 is released and label the reactions where oxidation of carbon occurs.