Practical: Investigating the Effect Enzyme and Substrate Concentrations (Edexcel A Level Biology (A) SNAB): Revision Note
Practical: Investigating the Effect of Enzyme and Substrate Concentrations
Enzyme concentration
Enzyme concentration affects the rate of reaction
The higher the enzyme concentration in a reaction mixture, the greater the number of active sites available and the greater the likelihood of enzyme-substrate complex formation
As long as there is sufficient substrate available, the initial rate of reaction increases linearly with enzyme concentration
If the amount of substrate is limited, at a certain point any further increase in enzyme concentration will not increase the reaction rate as the amount of substrate becomes a limiting factor
The effect of enzyme concentration on the rate of an enzyme controlled reaction
Substrate concentration
Substrate concentration affects the rate of reaction
The higher the substrate concentration the faster the rate of reaction
More substrate molecules means more collision between enzyme and substrate so the more likely an active site will be used by a substrate
The is only the case up until a certain concentration of substrate, at which point a saturation point is said to have been reached
At this point all active sites are occupied and increasing the substrate concentration will not affect the rate of the reaction
Substrate concentration will decrease over time (if no new substrate is added)
The rate of reaction will therefore decrease over time
This means the initial rate of reaction will be fastest throughout the reaction
The effect of substrate concentration on the rate of an enzyme controlled reaction
Practical: Investigate the effect of enzyme and substrate concentrations on the initial rates of reactions
There are two ways to measure the rate of reaction to investigate changing enzyme and substrate concentrations
Measure how fast the product is made
Measure how fast the substrate is used up
There are many enzymes that can be used in this practical; some common examples are catalase, amylase and protease
The initial rate of reaction can be calculated to determine the effect of changing enzyme or substrate concentrations
The initial rate of reaction is at the start of the reaction
You can calculate the initial rate of reaction using a graph of results showing volume of product/substrate against time
Draw a tangent to the graph through the origin
Calculate the gradient of the tangent - this is the initial rate of reaction
How to calculate the initial rate of reaction from a graph
Effect of enzyme concentration on the rate of reaction
You can measure how fast a product is made in a reaction
Apparatus
Catalase solution at five different concentrations (enzyme)
Hydrogen peroxide solution (substrate)
Buffer solution (to keep the pH constant)
Boiling tube
Bung and delivery tube
Measuring cylinder
Water trough
Stopwatch
The apparatus set up to investigate how changing the concentration of catalase affects the volume of oxygen produced
Method
Add a set volume of hydrogen peroxide solution to a boiling tube
Add a set volume of buffer solution to the same boiling tube
Invert a full measuring cylinder into a trough of water
Place the end of the delivery tube into the open end of the measuring cylinder and attach the other end to a bung
Add a set volume of one concentration of catalase to the boiling tube and quickly place the bung into the boiling tube
Record the volume of oxygen collected in the measuring cylinder by the water displaced every 10 seconds for 60 seconds
Repeat the experiment twice more and calculate the average volume of oxygen produced at each 10 second interval
Repeat the whole experiment for the different concentrations of catalase
Plot the average volume of gas produced against time for each concentration
Compare the initial rate of reaction of each of the concentrations
Results
As the concentration of catalase increases the volume of oxygen produced would increase
This is because there would be more available active sites for hydrogen peroxide to use
The volume of oxygen would plateau out after the initial rate of reaction due to the substrate decreasing, having been converted into the product (oxygen)
An example of a set of results for one concentration of catalase showing the volume of oxygen produced per second
Effect of substrate concentration on the rate of reaction
Another investigation is to measure how fast a substrate is removed from a reaction
This can be done using a range of substrate concentrations to investigate how changing concentration effects the rate of the reaction
The breakdown of starch by amylase is a good example of how to investigate the effect of substrate concentration on the rate of the reaction
Iodine solution can be added to a starch solution to create a solution with a blue-black appearance
This will provide a measurable way of determining the rate at which starch is broken down to maltose using a colorimeter
The colorimeter will measure how the absorbance of the starch solution change over a period of time once amylase is added to it
This can be repeated for a range of different starch concentrations and a graph of absorbance against time can be plotted
Results should show a fast initial rate of reaction and then plateau out as the substrate is converted into product(s) and all available active sites become occupied by the increasing concentration of substrate
Examiner Tips and Tricks
For any experiment remember to have a control, for example using distilled water in place of the enzyme or substrate. It is also important to control other variables such as pH and temperature to ensure these do not have an effect on the activity of the enzyme.
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