1.2.1 Enzyme Function

    Cards (33)

    • Enzymes are biological catalysts that speed up chemical reactions
    • Enzymes work by lowering the activation energy
    • What does the lock-and-key model explain about enzyme action?
      Substrate-active site binding
    • Enzymes work by lowering the activation energy needed for a reaction to occur.
    • What is the region of an enzyme where the substrate binds?
      Active site
    • The induced fit model suggests that the active site of an enzyme is flexible.
    • What is the effect of competitive inhibitors on enzyme activity?
      Reduce V<sub>max</sub>
    • What do enzymes do in living organisms?
      Speed up chemical reactions
    • Steps of enzyme action
      1️⃣ Enzyme binds to substrate
      2️⃣ Substrate is converted into product
      3️⃣ Enzyme is released unchanged
    • What does the lock-and-key model describe about enzyme-substrate binding?
      Rigid, complementary fit
    • Match the type of inhibitor with its effect:
      Competitive inhibitor ↔️ Prevents substrate binding
      Non-competitive inhibitor ↔️ Reduces enzyme efficiency
    • Enzymes are produced by living organisms.

      True
    • The active site of an enzyme has a structure complementary to the substrate.
      True
    • The enzyme amylase breaks down starch into glucose
    • Enzymes are not consumed or changed during a reaction.
    • What does the lock-and-key model suggest about the shapes of the active site and the substrate?
      Complementary
    • What happens to enzyme activity at extreme pH levels?
      It decreases
    • Enzymes are biological catalysts
    • Enzymes lower the activation energy
    • The induced fit model suggests the active site is rigid.
      False
    • Extreme temperatures can denature enzymes.
      True
    • Which enzyme is used in detergent manufacturing to break down proteins?
      Proteases
    • What is one characteristic that distinguishes enzymes from other catalysts?
      Highly specific to substrates
    • What happens to enzymes after they catalyze a reaction?
      They remain unchanged
    • Steps involved in the lock-and-key model of enzyme action
      1️⃣ The substrate binds to the active site
      2️⃣ The enzyme catalyzes the reaction
      3️⃣ The products are released
    • Enzymes are highly specific to their substrates.

      True
    • The binding of a substrate to the active site follows the lock-and-key model.
    • High temperatures can denature enzymes.

      True
    • Non-competitive inhibitors bind to a site other than the active site of the enzyme.
    • Enzymes are less specific than synthetic catalysts.
      False
    • Match the enzyme feature with its description:
      Active site ↔️ Region where substrate binds
      Complementary structure ↔️ Ensures precise substrate binding
    • The induced fit model suggests the active site is flexible
    • Amylases are used in food production to hydrolyze starch