Enzymes : Mechanism and Catalysis. Enzymes DO NOT change the equilibrium constant of a reaction Enzymes DO NOT alter the amount of energy consumed or.

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Presentation transcript:

Enzymes : Mechanism and Catalysis

Enzymes DO NOT change the equilibrium constant of a reaction Enzymes DO NOT alter the amount of energy consumed or liberated in the reaction (standard free energy change,  G°) Enzymes DO increase the rate of reactions that are otherwise possible Enzymes DO decrease the activation energy of a reaction (  G° ‡ )

Enzyme/Substrate Interactions Lock and key model substrate (key) fits into a perfectly shaped space in the enzyme (lock) Enzymes and Enzyme Kinetics Induced fit model substrate fits into a space in the enzyme, causing the enzyme to change conformation change in protein conformation leads to an exact fit of substrate with enzyme Following catalysis, the product(s) no longer fits the active site and is released

Strain and Distortion model The binding of the substrate results in the distortion of the substrate in a way that makes the chemical reaction easier.

General Base Catalysis I: Ester Hydrolysis

The hydrolysis of esters proceeds readily under in the presence of hydroxide. It is base catalyzed. However, the rate of hydrolysis is also dependent on imidazole buffer concentration. Imidazole can accept a proton from water in the transiton state in order to generate the better nucleophile, hydroxide. It can also re-donate the proton to the paranitrophenylacetate in order to generate a good leaving group. General Base Catalysis II: Ester Hydrolysis

Electrostatic interactions are much stronger in organic solvents than in water due to the dielectric constant of the medium. The interior of enzymes have dielectric constants that are similar to hexane or chloroform General Acid Catalysis : Ester Hydrolysis

Metal ions that are bound to the protein (prosthetic groups or cofactors) can also aid in catalysis. In this case, Zinc is acting as a Lewis acid. It coordinates to the non-bonding electrons of the carbonyl, inducing charge separation, and making the carbon more electrophilic, or more susceptible to nucleophilic attack. Catalysis by Metal Ions Catalysis I: Ester Hydrolysis

Metal ions can also function to make potential nucleophiles (such as water) more nucleophilic. For example, the pka of water drops from 15.7 to 6-7 when it is coordinated to Zinc or Cobalt. The hydroxide ion is 4 orders of magnitude more nucleophilic than is water. Catalysis by Metal Ions Catalysis II: Ester Hydrolysis

Covalent Catalysis : Acetoacetate Decarboxylase

Enzyme Inhibition Certain compounds inhibit enzymes –decrease the rates of their catalysis inhibition can be reversible or irreversible 3 types of reversible inhibitors –competitive inhibitors –non-competitive inhibitors –un-competitive inhibitors Irreversible inhibition –suicide inhibitors the various types of inhibitors can be distinguished by the kinetics of their inhibition Enzymes and Enzyme Kinetics

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Chymotrypsin Mechanism (Step 1)

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