Enzymes and their biological functions test revision

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Clementine

Cards (25)

What is the nature of enzymes?
Enzymes are proteins.
What are the general properties of enzymes?
Enzymes are biological catalysts.
They speed up chemical reactions.
They are specific to substrates.
They are not consumed in the reaction.
They can be regulated by inhibitors and activators.
Where do enzymes act?
Enzymes act at specific sites called active sites.
What is an active site?
An active site is the region on an enzyme where substrate molecules bind.
What is the lock-and-key model of enzyme action?
The lock-and-key model describes how enzymes and substrates fit together.
The enzyme (lock) has a specific shape.
The substrate (key) fits perfectly into the active site.
This model emphasizes specificity in enzyme-substrate interactions.
What is the induced fit model in relation to enzymes?
It describes how enzymes change shape to fit substrates better during a reaction.
How do enzymes affect activation energy?
Enzymes lower the activation energy required for a reaction to occur.
What factors affect enzyme activity?
Temperature
pH
Substrate concentration
Enzyme concentration
What happens to the rate of reaction as substrate concentration increases?
The rate of reaction increases until it reaches a saturation point.
What is the saturation point in enzyme reactions?
The saturation point is when all enzyme molecules are occupied by substrate.
How does enzyme concentration affect the rate of reaction?
As enzyme concentration increases, the rate of reaction increases until it plateaus.
What is enzyme inhibition?
Enzyme inhibition is the decrease in the rate of an enzyme-catalyzed reaction.
What is competitive inhibition?
Competitive inhibition occurs when an inhibitor competes with the substrate for the active site.
How can the effects of competitive inhibition be reversed?
By increasing the concentration of the substrate relative to the inhibitor.
What is non-competitive inhibition?
Non-competitive inhibition occurs when an inhibitor binds to a site other than the active site.
What are examples of non-competitive inhibitors?
Heavy metal ions such as Hg $^{2+}$ , Pb $^{2+}$ , and As $^{3+}$ .
What is enzyme immobilisation?
Enzymes are attached to an inert, insoluble material.
Allows enzymes to be reused multiple times.
Makes the process more economically viable.
What is the benefit of immobilising enzymes in industrial processes?
It allows enzymes to be reused, reducing costs and waste.
What are some industrial applications of immobilised enzymes?
Production of antibiotics
Synthesis of semi-synthetic penicillins
Production of high-fructose corn syrup
Conversion of lactose to glucose and galactose in the dairy industry
What are the methods of enzyme immobilisation?
Adsorption: Enzymes bind to an inert surface.
Covalent binding: Enzymes are covalently bonded to a solid support.
Entrapment: Enzymes are physically trapped within a support matrix.
What is the drawback of the adsorption method for enzyme immobilisation?
Enzymes may leach from the surface, decreasing their activity.
What is a disadvantage of covalent binding for enzyme immobilisation?
The harsh conditions required can damage the enzyme's active site.
Why is entrapment often the most successful method of enzyme immobilisation?
It protects enzymes from harsh conditions, preserving their activity.
How does enzyme concentration affect reaction rates?
High enzyme concentrations can speed up reactions.
Immobilised enzymes are more efficient at higher concentrations.
What does the graph showing reaction rate changes with enzyme concentration indicate?
It shows that immobilised enzymes are more efficient at higher concentrations.