3.2.2 Enzyme Activity

Cards (91)

Enzymes are consumed during catalysis.
False
Enzymes function most efficiently at their optimal temperature.
What is the typical optimal pH for most enzymes?
pH 7
The enzyme-substrate complex forms when a substrate binds to the active site.
What happens to enzyme activity as temperature increases to the optimal level?
Increases
What is the typical optimal pH for enzyme activity?
pH 7
What happens to enzyme activity as substrate concentration increases until saturation?
Increases then plateaus
Steps to design an enzyme activity experiment
1️⃣ Identify the independent variable
2️⃣ Determine the dependent variable
3️⃣ Set up control conditions
4️⃣ Vary the independent variable
5️⃣ Measure the dependent variable
6️⃣ Analyze the results
Enzymes are biological catalysts that speed up chemical reactions without being consumed. 
True
Enzymes are consumed during the chemical reactions they facilitate.
False
Enzymes reduce the activation energy
The temperature at which an enzyme functions most efficiently is called its optimal temperature.
Common control variables in enzyme experiments include temperature, pH, enzyme concentration, and substrate concentration. 
True
High temperatures always increase enzyme activity.
False
Changes in pH can denature enzymes, rendering them inactive. 
True
At the optimal pH, the enzyme's active site is in the correct conformation
Enzyme activity plateaus when all active sites are occupied, a phenomenon called enzyme saturation.
True
What is an example of an independent variable in an enzyme activity experiment?
Temperature
Match the control variable with its purpose:
Temperature ↔️ Maintain enzymes at optimal activity level
pH ↔️ Prevent enzyme denaturation or conformation changes
What does spectrophotometry measure in enzyme activity experiments?
Change in light absorbance
What are the two crucial steps in understanding enzyme activity experiments?
Data analysis and interpretation
Graphs like line graphs and bar charts visually represent relationships between independent and dependent variables
Tables are used to summarize key data points
Enzyme activity decreases at temperatures above the optimal range due to denaturation. 
True
Two key factors that significantly affect enzyme activity are temperature and pH
Enzyme activity reaches a maximum and plateaus when all active sites are occupied, a phenomenon called enzyme saturation
What enzyme is used in brewing to clarify beer and enhance its flavor?
Proteases
What are enzymes described as in biology?
Biological catalysts
Match the component of an enzyme with its function:
Enzyme Structure ↔️ Determines specificity and efficiency
Active Site ↔️ Binds substrate and facilitates reaction
Substrate ↔️ Reacts and transforms into products
Catalysis ↔️ Speeds up the reaction process
Order the effect of temperature on enzyme activity from low to high:
1️⃣ Low temperature: decreased activity
2️⃣ Optimal temperature: highest activity
3️⃣ High temperature: denaturation, no activity
If the pH moves away from the optimal range, the enzyme's active site loses its correct conformation.
Increasing temperature always increases enzyme activity indefinitely.
False
Excessively high temperatures can denature enzymes, causing them to lose activity. 
True
Enzymes can denature if the pH moves away from their optimal range.
True
Enzyme saturation occurs when all active sites are occupied by substrate molecules.
What is the purpose of control variables in enzyme activity experiments?
Isolate the effect
What is the role of the active site in enzyme function?
Binds substrates
The region on an enzyme where substrates bind is called the active site
Steps describing the effect of temperature on enzyme activity
1️⃣ Temperature increases, providing more kinetic energy
2️⃣ Enzyme activity increases
3️⃣ Temperature reaches optimal level for activity
4️⃣ Excessive temperature causes denaturation
Enzymes function best within a specific optimal pH range. 
True