3.2 Enzyme Catalysis

    Cards (37)

    • Enzymes speed up chemical reactions in living organisms by binding to and stabilizing the transition state
    • Match the reaction type with its characteristics:
      Catalyzed ↔️ Lower activation energy
      Uncatalyzed ↔️ Higher activation energy
    • Enzymes interact with a single type of substrate.

      True
    • Arrange the following reaction types based on their activation energy levels from highest to lowest:
      1️⃣ Uncatalyzed
      2️⃣ Catalyzed
    • What gives enzymes their high specificity for particular substrates?
      Their 3D shape
    • Match the enzyme binding model with its description:
      Lock-and-Key ↔️ Rigid active site
      Induced-Fit ↔️ Flexible active site
    • The lock-and-key model proposes that the enzyme has a rigid active site that exactly fits the substrate
    • What role do enzymes play in biological processes?
      Biological catalysts
    • Steps in enzyme-catalyzed reactions
      1️⃣ Enzyme binds to substrate
      2️⃣ Enzyme stabilizes the transition state
      3️⃣ Reaction occurs
      4️⃣ Product is released
    • What is the key difference between the lock-and-key and induced-fit models of enzyme binding?
      Active site flexibility
    • What is the primary role of enzymes in enzyme catalysis?
      Lower activation energy
    • The lock-and-key model proposes that the enzyme's active site is rigid
    • How do enzymes lower the activation energy of a reaction?
      By stabilizing the transition state
    • Order the steps of how temperature affects enzyme activity:
      1️⃣ Enzyme activity increases with temperature
      2️⃣ Optimal temperature is reached
      3️⃣ Further increase in temperature denatures the enzyme
    • Increasing substrate concentration always increases enzyme activity.
      False
    • Enzymes can have regulatory binding sites separate from their active site in a process called allosteric regulation
    • What is the effect of phosphorylation on enzyme activity?
      It can activate or inhibit
    • Enzymes can be sequestered in specific cellular compartments
    • What are enzymes defined as?
      Biological catalysts
    • Enzymes lower the activation energy needed for reactions to occur.

      True
    • What is one key benefit of enzymes in biological reactions?
      Accelerated reactions
    • Enzymes lower the activation energy required for chemical reactions, allowing them to occur more easily
    • Enzymes enable reactions to occur under optimal conditions.

      True
    • Enzymes lower the activation energy required for a reaction to occur, enabling it to proceed more easily
    • The induced-fit model suggests that the enzyme's active site changes shape upon substrate binding.

      True
    • Enzymes increase the rate of a reaction by lowering the activation energy.
      True
    • Enzymes exhibit high specificity, meaning each enzyme interacts specifically with a particular substrate
    • The 3D shape of an enzyme determines its specificity for a substrate.

      True
    • The induced-fit model suggests that the active site of an enzyme is flexible and adjusts its shape upon substrate binding
    • What are the two main models that describe enzyme-substrate binding?
      Lock-and-key and induced-fit
    • The induced-fit model suggests that the enzyme's active site changes shape upon substrate binding.

      True
    • Match the enzyme binding model with its description:
      Lock-and-Key ↔️ Rigid, pre-shaped active site
      Induced-Fit ↔️ Flexible active site that molds
    • What happens to enzyme activity if the pH deviates from its optimal range?
      It reduces enzyme activity
    • How do inhibitors affect enzyme activity?
      By blocking active sites
    • Covalent modification of enzymes always activates their catalytic activity.
      False
    • What is the effect of acetylation on enzyme activity?
      It often inhibits
    • Order the regulatory mechanisms of enzymes:
      1️⃣ Allosteric regulation
      2️⃣ Covalent modification
      3️⃣ Compartmentalization
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