1. Derivation of a rate expression for two consecutive reactions reaction sequence: k₁ k₂ [ES] ₁2 K-2 k_1 where substrate S binds with enzyme E to form complex [ES]₁. Complex [ES]₁ then transforms into complex [ES]2. Complex [ES]2 then transforms into product(s) P and free enzyme E. Develop a suitable rate expression for the product P formation [r = k5 [ES] ₂] by using: a. the quasi-equilibrium (Michaelis-Menten) approach Show all of your algebraic steps for the M-M method. Assume that you can define the following reaction parameters: VMAX = K3 * [E] total K'M = 1/(K₁ K₂) Where K₁, K₂ are the equilibrium constants for reaction steps 1 and 2 in the mechanism above. S+ E * [ES] 2 : Consider the following k3 →P+E

1037please help, type in word or excel

Transcribed Image Text:

1. Derivation of a rate expression for two consecutive reactions reaction sequence: k₁ k₂ [ES] ₁ K-1 K-2 where substrate S binds with enzyme E to form complex [ES]₁. Complex [ES]₁ then transforms into complex [ES]2. Complex [ES]2 then transforms into product(s) P and free enzyme E. Develop a suitable rate expression for the product P formation [r = k5 [ES]2] by using: a. the quasi-equilibrium (Michaelis-Menten) approach Show all of your algebraic steps for the M-M method. Assume that you can define the following reaction parameters: K'M = 1/(K₁ * K₂) VMAX = K3 * [E] total Where K₁, K₂ are the equilibrium constants for reaction steps 1 and 2 in the mechanism above. S+ E [ES] 2 : Consider the following k3 → P+E