A simple mechanism for enzyme-catalyzed ...

A simple mechanism for enzyme-catalyzed reaction is given by the folllwoing set of equations

`{:(underset("(enzyme)")(E),+,underset("(reactant)")(S),hArr,underset("(intermediata 1)")(ES),,),(underset("(intermediate 1)")(ES),,,hArr,underset("(intermediate 2)")(EP),,),(underset("(intermediate 2)")(EP),,,hArr,underset("(enzyme)")(E),+,underset("(product)")(P)):}`
This is know as the Michaelis-Menten mechanism. The potential energy diagram is shown in the fig. Which of the following sets of identifications is correct ? (Assume that the temperature and pressure are constant).

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A simple mechanism for enzyme-catalysed reaction is given by the following set of equations {:(underset(("enzyme"))(E)+,underset(("reactant"))(S),rarr,underset(("intermediate-1"))(ES)),(,underset(("intermediat-1"))(ES),rarr,underset(("intermediat-2"))(EP)),(,underset(("intermediate-2"))(EP),rarr,underset(("enzyme"))(E)+underset(("product"))(P)):} This is known as the Michaelis-Menten mechanism. The potential energy diagram is shown in the fig. Which of the following set of identifications is correct? (Assume that the temperature and pressure are constant).

Predict the correct intermediat and product in the following reaction reaction : H_(3)C-C-=CHoverset(H_(2)O,H_(2)SO_(4))underset(HgSO_(4))rarr underset((A))(Intermediate)rarrunderset((B))(pro duct)

Predict the correct intermediate and product in the following reaction : H_(3) C -C-= CH overset(H_(2) O , H_(2) SO_(4))underset(HgSO_(4))(to) underset( (A))("intermediate" ) to underset((B))("product")

Predict the correct intermediate and product in the following reaction. H_(3)C-C-CH underset(HgSO_(4))overset(H_(2)O,H_(2)SO_(4))to underset((A))("Intermediate")tounderset((B))("Product")

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