Enzyme Activity Lab (Biochemistry) PDF

Summary

This document is a lab exercise focused on enzyme activity, specifically salivary amylase. It details the procedure and introduces the concept of enzyme-catalyzed reactions. The lab covers factors affecting enzyme activity, and explores how variations in enzyme concentration, temperature, and pH affect the reaction rate.

Full Transcript

46 CHEM 132.2: Biochemistry Laboratory

Exercise No. 7:
Enzyme Activity
Introduction
Enzymes are biological catalysts. They participate in essentially every
biological reaction necessary for the maintenance of a living system. In this
experiment, you will use a readily available enzyme, salivary amylase, which
begins the hydrolysis of carbohydrates (amylose) in the saliva of the mouth.
An enzyme acts upon the reactants or substrates of a reaction to give an
enzyme-substrate intermediate. New compounds called products result. The
enzymes are used over and over during a reaction.
Enzyme + Substrate Enzyme-substrate Enzyme + Product
E + S ⇆ ES → E + P
Enzymes catalyze reactions in a cell at body temperature and mild conditions.
The rates of enzyme-catalyzed reactions are much faster than they would be
without the enzymes. Enzymes speed up a reaction by lowering the energy of
activation required to make the reaction occur.
To follow the action of an enzyme, it is necessary to test for the appearance
of a product, or the disappearance of a reactant over a measured period of
time.
AMYLASE
Amylase is an enzyme that is found in the saliva. In the reactions of amylase
with starch, you will test for the disappearance of starch by reacting samples
of the reaction mixtures with iodine. Initially, a starch solution gives a blue-
black color with iodine. The amylase catalyzes the hydrolysis of the α-1, 4
glycosidic bonds forming smaller polysaccharides, dextrins, maltose, and
eventually glucose.

Starch Smaller polysaccharides Glucose
Dextrins
Maltose

After the starch is hydrolyzed, the blue-black color produced with iodine no
longer occurs, and only the red or gold color of the iodine solution is seen.
The faster the amylase hydrolyzes the starch, the more quickly the blue-black
color disappears. If the blue-black color does not fade, you may conclude that
the enzyme is no longer active and that no hydrolysis of starch has occurred.

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For instructional purposes only 1st Semester SY 2020-2021 47

FACTORS AFFECTING ENZYME ACTIVITY
Enzyme activity depends upon several factors including enzyme
concentration, substrate concentration, pH, temperature and heavy metals.
Your own saliva containing the amylase enzyme will be used for this
experiment although the levels of amylase vary considerably from one person
to another. Each experiment must be timed. As you proceed with each
experiment, you will check enzyme activity by reacting a few drops of the
reaction mixture with iodine. The time at which the blue-black color of starch
disappears will be noted in each experiment.
The time required for the disappearance of starch will be correlated to the
relative enzyme activity. When enzyme activity is high, the time for the starch
to disappear will be very short. When the enzyme is operating poorly or not at
all, the activity will be low and more time will be required for the starch to
disappear. In some cases, the enzyme will be completely inactivated and the
blue-black color of starch and iodine will persist throughout the entire
experiment. Graphs will be prepared showing the effects of concentration, pH,
temperature and heavy metals upon the relative enzyme activity.

Learning Outcomes
1. To associate the presence of enzymes with the catalysis of chemical
reactions in living cells.
2. To determine the effect of enzyme concentration, substrate
concentration, temperature, pH and heavy-metal salts upon the
activity of salivary amylase.

Materials
 Test tubes Temperature baths 0.1 M AgNO3

 Test tube rack Warm water bath (50°C) 0.1 M NaCl

 Thermometer Boiling water bath (100°C) Ethanol

 Beakers Ice-water bath (0°C) Crushed ice

 Eyedropper 1%starch (buffered pH 7.0) Buffers (pH 3, 5,

 Spot plate, or wax Iodine reagent 7, 9, 11)
paper

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 48 CHEM 132.2: Biochemistry Laboratory

Procedure

A. ENZYME CONCENTRATION
A-1 Collect 2-3 mL of saliva in a small, clean beaker. Add an equal volume
of distilled water to the saliva and mix. Chewing gum or rubber bands
may help your secretion of saliva.
Using 5 test tubes, place 5 mL portions of 1% starch solution each. Set
up a water bath and heat to about 37°C. If it gets too warm, add tap
water to achieve a water bath temperature close to 37°C. Place the
test tubes in the 37°C water bath for 5 min.
Add the following amounts of saliva to the test tubes as quickly as
you can, mix thoroughly, and replace the test tubes in the 37°C water
bath. Record the time that you place the test tubes in the 37°C water
bath. Watch the temperature of the water bath adding more warm
water as needed.
Test tube Drops of Saliva Solution
1 1
2 5
3 10
4 15
5 30
Starch-Iodine Test
Prepare a spot plate or sheet of wax paper for testing in the samples.
Place 1 drop of iodine reagent in each depression of the spot plate or
on the wax paper. Add a drop of starch solution to the first drop of
iodine. The reaction should give a deep-blue-black color which
indicates the presence of starch.
A-2 Five minutes after addition of enzyme, remove a drop of each mixture
(use clean droppers each time) and add to a drop of iodine in the spot
plate or on the wax paper. A blue-black color indicates that starch is
present after 5 minutes. If the color with iodine is red or gold, the
starch has been completely hydrolyzed. Record the time for
disappearance of the blue-black color in any of the samples. Clean the
spot plate or wax paper.
Repeat the testing with fresh drops of iodine in the spot plate or on the
wax paper every 5 minutes thereafter. Continue testing for 30
minutes. Record the time when the blue-black color no longer appears
for each sample.

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A-3 Calculate the amount of time in minutes for the hydrolysis of starch in
each sample.
A-4 Plot the time (minutes) for the starch to hydrolyze (disappearance of
blue-black color) against the amount (drops) of saliva solution.

B. EFFECT OF pH
B-1 Place 5 mL of buffer solutions (pH 3, 5, 7, 9, 11) in separate test tubes.
Label. Add 5 drops of saliva solution to each test tube. Place the test
tubes all together in a 37°C water bath for five minutes. Prepare a spot
plate or wax paper with drops (1 each) of iodine for testing the
reaction progress. To start the reaction, add 5 mL OF 1% starch
solution to each test tube. Record the time you added the starch
solution.
Five minutes after the starch was added, remove a drop of the
reaction mixture from each test tube and perform the starch-iodine
test. Repeat the test for the starch every 5 minutes thereafter.
Continue testing as long as starch is present up to 30 minutes. In
some test tubes, the enzyme will be inactive, and the test will be
positive for starch the entire time.
B-2 Calculate the time required for the disappearance of starch (blue-
black color) at each pH.
B-3 Plot the time for starch to disappear (no longer gives a blue-black
color) against the pH of the samples.

C. EFFECT OF TEMPERATURE
C-1 Work with your lab neighbors to prepare temperature baths using
larger beakers as follows:
0°C ice water mixture
20-25°C tap water
37°C warmed tap water
70°C warmed water bath
100°C boiling hot water bath
Place 5 mL of 1% starch solution in each of five test tubes. Place one
test tube in each of the five water baths and leave for 5 min. Then add
10 drops of saliva solution to each test tube, and record the time.
Leave the test tubes in the water baths another 5 minutes.
Five minutes after the first addition of enzyme, remove a drop from
each test tube and test for starch. Test for starch every 5 minutes

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 50 CHEM 132.2: Biochemistry Laboratory

thereafter. Record the time at which the blue-black color disappears
for each sample. Continue testing for 30 minutes.
C-2 Calculate the time (minutes) required for the disappearance of starch
in each sample.
C-3 Plot the relative enzyme activity (hydrolysis time of starch) against the
temperature.

D. INHIBITION OF ENZYME ACTIVITY
D-1 Prepare 4 test tubes with the following:
Test Tube
1 2 mL of 0.1 M AgNO3
2 2 mL of 0.1 M NaCl
3 2 mL of ethanol
4 2 mL water
Add 10 drops of the saliva solution to each. Place the test tubes in a
37°C water bath and leave for 5 min. Prepare a spot plate or wax
paper with drops of iodine reagent. To start the reaction, add 4 mL of
starch solution to each test tube and mix thoroughly.
D-2 Five minutes after the addition of enzyme, remove a drop of solution
from each test tube and test for starch. Repeat the test every 5
minutes thereafter. Continue testing for 20 minutes.
D-3 Calculate the time required for the blue color to disappear.

Guide questions and instructions on how to prepare
and submit the laboratory
1. (A) How does the activity of the enzyme change as its concentration is
increased?
What are some reasons for these changes in activity?
2. (B) What is the effect of pH upon the relative enzyme activity?
What are some reasons for this effect?
3. (C) How is the enzyme affected by low temperatures? By high
temperatures?
What are some reasons for these temperature effects?
According to your experiment, what is the optimum temperature for
salivary amylate?
4. (D) Which of the compounds added to the reaction tubes are
inhibitors?
Why do these compounds act as inhibitors of enzyme activity?
Why is an alcohol swab used prior to giving an injection to a patient?

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For instructional purposes only 1st Semester SY 2020-2021 51

This guide questions will serve as your quiz and to be submitted along
with your lab report. The laboratory report sheets provided will be
submitted by the student after every exercise through email or courier.
See abridged for the schedule of submission.

Additional Resources
Use References style here

References
Robyt, J.F. and B.J. White. 1987. Biochemical Techniques: Theory and Practice. Brooks/Cole
Pub. Co.: Monterey, California; pp. 407.

Timberlake, K. 1988. Laboratory Manual for Chemistry. Harper Collins Publishers Inc.: New
York, pp. 277-372.

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