2.4.2 Enzyme kinetics

    Cards (59)

    • Vmax is the maximum reaction rate when the enzyme is fully saturated with substrate.

      True
    • Order the effect of increasing substrate concentration on enzyme kinetics.
      1️⃣ Initial increase in reaction rate
      2️⃣ Saturation of enzyme active sites
      3️⃣ Reaction rate plateaus at Vmax
    • The Michaelis-Menten equation describes the rate of an enzyme-catalyzed reaction.

      True
    • Km is the substrate concentration at which the reaction rate is half of Vmax
    • What does a lower Km value indicate about enzyme-substrate affinity?
      Higher affinity
    • What is enzyme kinetics the study of?
      Rate of enzyme-catalyzed reactions
    • Factors affecting enzyme kinetics include substrate concentration, enzyme concentration, temperature, and pH
    • What happens to enzyme kinetics when temperature increases beyond the optimal range?
      Reaction rate decreases
    • What does Vmax represent in the Michaelis-Menten equation?
      Maximum reaction rate
    • Match the enzyme kinetic parameter with its definition:
      Vmax ↔️ Maximum reaction rate
      Km ↔️ Substrate concentration at half Vmax
    • What are Vmax and Km critical parameters in enzyme kinetics used to characterize?
      Enzyme behavior
    • Vmax represents the maximum reaction rate when the enzyme is saturated with substrate.

      True
    • Lower Km values indicate higher enzyme affinity for the substrate
    • Increasing substrate concentration increases reaction rate up to a maximum
    • Match the parameter with its definition and significance:
      Vmax ↔️ Maximum reaction rate, catalytic capacity
      Km ↔️ Substrate concentration at half Vmax, enzyme affinity
    • Glucokinase requires higher substrate concentrations to achieve optimal activity due to its high Km value.

      True
    • Lower Km values indicate a strong enzyme-substrate interaction, leading to higher affinity and specificity.
      True
    • The Michaelis-Menten equation is given by v=v = \frac{V_{\max}[S]}{K_{m} + [S]}, where Km is the substrate concentration at half Vmax.
    • Enzymes work best at body temperature (around 37°C).

      True
    • The Lineweaver-Burk plot is a graphical representation of the Michaelis-Menten equation.
    • Steps to construct a Lineweaver-Burk plot
      1️⃣ Plot the reciprocal of the reaction rate (1/v) on the y-axis
      2️⃣ Plot the reciprocal of the substrate concentration (1/[S]) on the x-axis
    • The y-intercept of a Lineweaver-Burk plot represents 1/Vmax.
    • Match the inhibition type with its mechanism:
      Competitive ↔️ Inhibitor binds to the active site
      Non-competitive ↔️ Inhibitor binds to a site other than the active site
      Uncompetitive ↔️ Inhibitor binds to the enzyme-substrate complex
    • Uncompetitive inhibition decreases both Km and Vmax.
    • Understanding enzyme kinetics is crucial for optimizing enzyme-catalyzed processes in biological and industrial applications.

      True
    • The Michaelis-Menten equation is v=v = \frac{V_{\max}[S]}{K_{m} + [S]}, where Vmax is the maximum reaction rate.
    • What is the optimal pH range for enzyme activity?
      Depends on the enzyme
    • The Michaelis-Menten equation describes the rate of an enzyme-catalyzed reaction in relation to substrate concentration.
    • What is the Michaelis-Menten equation?
      v=v = \frac{V_{\max}[S]}{K_{m} + [S]}
    • Match the component of the Michaelis-Menten equation with its definition:
      v ↔️ Reaction rate
      Vmax ↔️ Maximum reaction rate
      [S] ↔️ Substrate concentration
      Km ↔️ Michaelis constant
    • The Michaelis constant, Km, indicates the enzyme's affinity for the substrate.
    • Match the Km value with its corresponding enzyme affinity and efficiency:
      Lower Km (e.g., < 1 mM) ↔️ High affinity and efficiency
      Higher Km (e.g., > 10 mM) ↔️ Low affinity and efficiency
    • Lower Km values indicate a strong enzyme-substrate interaction.

      True
    • Km is measured in units of moles per liter
    • Order the factors affecting enzyme kinetics based on their effect on reaction rate:
      1️⃣ Substrate concentration
      2️⃣ Enzyme concentration
      3️⃣ Temperature
      4️⃣ pH
    • Enzymes have an optimal pH range where reaction rate is maximized.

      True
    • Match the component of the Michaelis-Menten equation with its definition:
      v ↔️ Reaction rate
      Vmax ↔️ Maximum reaction rate
      [S] ↔️ Substrate concentration
      Km ↔️ Michaelis constant
    • The Michaelis-Menten equation describes how the reaction rate changes with substrate concentration.

      True
    • What does Vmax represent in the Michaelis-Menten equation?
      Maximum reaction rate
    • Km indicates the enzyme's affinity for the substrate