1. ENZYME ACTIVITY
“How do enzymes work?”
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2. Navigation Directions for navigating this PowerPoint:
Click only the buttons on the screen. Do not use the keyboard.
If you accidentally hit the keyboard or the slide show stops working, click the home button. This button will bring you back to the beginning of the section you are working on.
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3. DON’T FORGET
As we go through this PowerPoint, don’t forget to answer the questions on your hand-out.
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4. ENZYME REVIEW What type of macromolecule is an enzyme? CARBOHYDRATE
Answer Question 1!
ENZYME REVIEW
What type of macromolecule is an enzyme?
CARBOHYDRATE
PROTEIN
LIPID
NUCLEIC ACID

5. ENZYME REVIEW TRY AGAIN What type of macromolecule is an enzyme?
CARBOHYDRATE
TRY
AGAIN
PROTEIN
LIPID
NUCLEIC ACID

6. ENZYME REVIEW TRY AGAIN What type of macromolecule is an enzyme?
CARBOHYDRATE
TRY
AGAIN
PROTEIN
LIPID
NUCLEIC ACID

7. ENZYME REVIEW TRY AGAIN What type of macromolecule is an enzyme?
CARBOHYDRATE
TRY
AGAIN
PROTEIN
LIPID
NUCLEIC ACID

8. ENZYME REVIEW RIGHT!! What type of macromolecule is an enzyme?
CARBOHYDRATE
RIGHT!!
PROTEIN
LIPID
NUCLEIC ACID

9. What do enzymes do? Very Many Not Many
Answer Question 2!
What do enzymes do?
Enzymes are special types of proteins.
There are many different enzymes in your body.
Enzymes perform a variety of different functions; they are the “machines” of your cells.
Two of the functions of enzymes are digestion of food and to repairing different parts of the cell.
How many types of enzymes do you think are there in your body?
Very Many
Not Many

10. What do enzymes do? Very Many Very Few
Answer Question 2!
What do enzymes do?
Enzymes are special types of proteins.
There are many different enzymes in your body.
Enzymes perform a variety of different functions; they are the “machines” of your cells.
Two of the functions of enzymes are digestion of food and to repairing different parts of the cell.
How many types of enzymes do you think are there in your body?
Very Many
Very Few

11. NOPE,
TRY AGAIN

12. Answer Question 3!
AMYLASE
Amylase is an enzyme that is found in your saliva. Its function is to begin the break down of starch in your food.
Click on the body part where you would find the amylase enzyme.

13. AMYLASE
Amylase is an enzyme that is found in your saliva. Its function is to begin the break down of starch in your food.
Click on the body part where you would find the amylase enzyme.

14. AMYLASE
Amylase is an enzyme that is found in your saliva. Its function is to begin the break down of starch in your food.
Click on the body part where you would find the amylase enzyme.

15. RIGHT!!

16. Enzymes are specific for their targets.
Every enzyme (including amylase) is specific and will react with or act on a specific molecule.
Amylase reacts only with starch. It will not react with any other molecule.
This is because only certain molecules fit into a given enzyme.

17. Click on the macromolecule that will fit into the red part of the amylase enzyme
STARCH
PROTEIN
LIPID
AMYLASE
Enzyme

18. It doesn’t look like the protein molecule fits!
STARCH
Try again..
PROTEIN
LIPID
AMYLASE
Enzyme

19. It doesn’t look like the protein molecule fits!
STARCH
PROTEIN
LIPID
AMYLASE
Try again..
Enzyme

20. RIGHT!!
PROTEIN
STARCH
LIPID
AMYLASE
Enzyme

21. STARCH What type of nutrient is STARCH? CARBOHYDRATE PROTEIN LIPID
NUCLEIC ACID

22. STARCH TRY AGAIN What type of nutrient is STARCH? CARBOHYDRATE PROTEIN
LIPID
NUCLEIC ACID

23. STARCH TRY AGAIN What type of nutrient is STARCH? CARBOHYDRATE PROTEIN
LIPID
NUCLEIC ACID

24. STARCH TRY AGAIN What type of nutrient is STARCH? CARBOHYDRATE PROTEIN
LIPID
NUCLEIC ACID

25. STARCH RIGHT!! What type of nutrient is STARCH? CARBOHYDRATE PROTEIN
LIPID
NUCLEIC ACID

26. STARCH In the lab, we can test for nutrients in different foods.
Answer Question 4!
STARCH
In the lab, we can test for nutrients in different foods.
We can test for STARCH using iodine.
If STARCH is present, the iodine solution will turn blue-black.
Next Slide

27. Test this solution for iodine:
Click the beaker to add 3 drops of iodine to the solution to see if it contains starch:

29. So… is there starch in the solution?
YES!!
NO!!

30. TRY AGAIN
So… is there starch in the solution?
YES!!
NO!!

31. YES!! NO!! RIGHT!! So, is there a carbohydrate in the solution?
The starch reacted with the iodine to produce the blue-
black color.
So, is there a carbohydrate in the solution?
YES!!
NO!!

32. TRY AGAIN
So, is there a carbohydrate in the solution?
YES!!
NO!!

33. STARCH is a carbohydrate!
RIGHT!!
STARCH is a carbohydrate!

34. BACK TO AMYLASE
Let’s do an experiment. Let’s test the effect of amylase on starch. The two beakers below contain starch. Click on the beaker on the left to add amylase enzyme.

35. BACK TO AMYLASE
In reality, enzyme molecules are microscopic (too small to see). In this simulation, green stars will represent the amylase enzyme. Click on each beaker to add iodine.

36. BACK TO AMYLASE
When you add iodine to the beaker with the amylase, it does not turn blue-black. It turns yellow (the color of the iodine).
Click on the other beaker to add iodine.

37. Which solution contains starch?
Click on the beaker that CONTAINS starch.

38. BACK TO AMYLASE
NO. Starch is in the beaker that turned blue-black. The iodine reacted with the starch to produce the blue-black color.

39. RIGHT!! Why doesn’t the left-hand beaker contain starch?
Iodine doesn’t react with amylase.
Amylase broke down the starch,
so there is none left to react with the iodine.

40. TRY AGAIN NOPE: amylase doesn’t affect iodine.
Iodine doesn’t react with amylase
Amylase broke down the starch,
so there is none left to react with the iodine

41. RIGHT!!

42. Where does the starch go?
Ok, so amylase breaks down starch. Once starch is broken down, iodine cannot detect it. But, what happens to the starch? Click on the beaker to perform a different test.

43. Where does the starch go?
Let’s do the test for sugar. If the glucose test strip turns green or brown, sugar is present in the solution. Click either of the strips next to the beakers to see the results.

44. Where does the starch go?
Click on the beaker that contains SUGAR.

45. Where does the starch go?
NOPE, no sugar in that one. Remember, if the test strip turns brown or green, sugar is present.

46. RIGHT!!

47. Answer Question 5!
THE REACTION
AMYLASE breaks down STARCH into its subunits, which are simple sugars.
SUGAR
STARCH
AMYLASE

48. STARCH is called the SUBSTRATE SUGAR is called the PRODUCT
Answer Question 6!
SUGAR
STARCH
AMYLASE
In this reaction,
STARCH is called the SUBSTRATE
SUGAR is called the PRODUCT
The ENZYME AMYLASE is called the CATALYST

49. Enzyme Reactions - Substrate
This means that a SUBSTRATE is:
The molecule that is broken down
The molecule that you end up with
The molecule that performs a reaction, but is not used up
GO BACK
TO REACTION
or make a selection above.

50. TRY AGAIN This means that a SUBSTRATE is:
The molecule that is broken down
The molecule that you end up with
The molecule that performs a reaction, but is not used up
GO BACK
TO REACTION
or make a selection above.

51. TRY AGAIN This means that a SUBSTRATE is:
The molecule that is broken down
The molecule that you end up with
The molecule that performs a reaction, but is not used up
GO BACK
TO REACTION
or make a selection above.

52. RIGHT!!

53. Enzyme Reactions - Product
This means that a PRODUCT is:
The molecule that is broken down
The molecule that you end up with
The molecule that performs a reaction, but is not used up
GO BACK
TO REACTION

54. TRY AGAIN This means that a PRODUCT is:
The thing that gets broken down
The molecule that you end up with
The molecule that performs a reaction, but is not used up
GO BACK
TO REACTION

55. TRY AGAIN This means that a PRODUCT is:
The molecule that is broken down
The molecule that you end up with
The molecule that performs a reaction, but is not used up
GO BACK
TO REACTION

56. RIGHT!!

57. Enzyme Reactions - Catalyst
This means that a CATALYST is:
The molecule that is broken down
The molecule that you end up with
The molecule that performs a reaction, but is not used up
GO BACK
TO REACTION
or make a selection above.

58. TRY AGAIN This means that a CATALYST is:
The molecule that is broken down
The molecule that you end up with
The molecule that performs a reaction, but is not used up
GO BACK
TO REACTION
or make a selection above.

59. TRY AGAIN This means that a CATALYST is:
The molecule that is broken down
The molecule that you end up with
The molecule that performs a reaction, but is not used up
GO BACK
TO REACTION
or make a selection above.

60. RIGHT!!

61. In this reaction, the PROTEIN is the…
AMINO ACIDS
PROTEASE
PRODUCT
SUBSTRATE
CATALYST

62. TRY AGAIN
PROTEIN
AMINO ACIDS
PROTEASE
PRODUCT
SUBSTRATE
CATALYST

63. TRY AGAIN
PROTEIN
AMINO ACIDS
PROTEASE
PRODUCT
SUBSTRATE
CATALYST

64. PROTEASE is the… AMINO ACIDS PROTEIN PROTEASE PRODUCT SUBSTRATE
CATALYST

65. TRY AGAIN AMINO ACIDS PROTEIN PROTEASE PRODUCT SUBSTRATE SUBSTRATE
CATALYST

66. TRY AGAIN AMINO ACIDS PROTEIN PROTEASE PRODUCT SUBSTRATE SUBSTRATE
CATALYST

67. AMINO ACIDS are the… AMINO ACIDS PROTEIN PROTEASE PRODUCT SUBSTRATE
CATALYST
CATALYST

68. TRY AGAIN AMINO ACIDS PROTEIN PROTEASE PRODUCT SUBSTRATE SUBSTRATE
CATALYST
CATALYST

69. TRY AGAIN AMINO ACIDS PROTEIN PROTEASE PRODUCT SUBSTRATE SUBSTRATE
CATALYST
CATALYST

70. Way to go!!

71. ENZYME NAMES AMYLASE (am-ill-ace) PROTEASE (pro-tee-ace) YES, I DID
Did you notice something about the names of the two enzymes?
AMYLASE (am-ill-ace)
PROTEASE (pro-tee-ace)
YES, I DID
NO, I DIDN’T

72. Answer Question 7!
ENZYME NAMES
Good! You probably noticed that both names end in -ASE. Enzyme names usually end in -ASE. They are very often named after the substrate they break down.
AMYLASE
PROTEINASE

73. Answer Question 7!
ENZYME NAMES
Look closely! You probably noticed that both names end in -ASE. Enzyme names usually end in -ASE. They are very often named after the substrate they break down.
AMYLASE
PROTEINASE

74. DID YOU UNDERSTAND? LIPASE is probably: An enzyme that breaks
down lipids
An enzyme that
repairs cells
A sugar that is found
In lipids
A type of lipid

75. NOPE! TRY AGAIN HINT: Look for a word in one of the answers that
resembles the name of the enzyme. (Remember,
enzymes react with a substrate).

76. RIGHT!!

77. Think about this…
During a reaction, what do you think happens to the amount of SUBSTRATE as time goes on?
SUGAR
STARCH
AMYLASE

78. We can test it using our starch test (iodine)
Each beaker contains starch. Amylase enzyme was added at 0 seconds. Click on each beaker below to add the iodine.
0 sec
20 sec
40 sec
60 sec
120 sec

79. We can test it using our starch test (iodine)
Each beaker contains starch. Amylase enzyme was added at 0 seconds. Click on each beaker below to add the iodine.
0 sec
20 sec
40 sec
60 sec
120 sec
Lots of starch is still left after 0 seconds.

80. We can test it using our starch test (iodine)
Each beaker contains starch. Amylase enzyme was added at 0 seconds. Click on each beaker below to add the iodine.
0 sec
20 sec
40 sec
60 sec
120 sec
Some starch is left after 20 seconds.
Amylase has broken down some of thestarch into sugar

81. We can test it using our starch test (iodine)
Each beaker contains starch. Amylase enzyme was added at 0 seconds. Click on each beaker below to add the iodine.
0 sec
20 sec
40 sec
60 sec
120 sec
Very little starch is left after 40 seconds.
Amylase has broken down almost all of the starch into sugar.

82. We can test it using our starch test (iodine)
Each beaker contains starch. Amylase enzyme was added at 0 seconds. Click on each beaker below to add the iodine.
0 sec
20 sec
40 sec
60 sec
120 sec
No starch is left after 60 seconds.
Amylase has broken down all of the starch into sugar.
The yellow color is from the iodine.

83. We can test it using our starch test (iodine)
Each beaker contains starch. Amylase enzyme was added at 0 seconds. Click on each beaker below to add the iodine.
0 sec
20 sec
40 sec
60 sec
120 sec
No change between 60 and 120 seconds.
Amylase already broke down all of the starch into
sugar.

84. We can show this change in substrate concentration as a graph…
Which variable should be placed the X-axis?
Amount of substrate
TIME (in seconds)

85. We can show this as a graph
NO. The time variable is usually placed on the
X-axis.
What should go on the X-axis?
Amount of substrate
TIME (in seconds)

86. We can show this as a graph
Amount of enzyme
What should go on the Y-axis?
(HINT: This is what we are
MEASURING)
Amount of substrate
RIGHT! Time usually goes on the X-axis 20 40 60
120
Time (in seconds)

87. We can show this as a graph
Amount of enzyme
What should go on the Y-axis?
(HINT: This is what we are
MEASURING)
NO. Remember: We are trying to graph the amount of substrate over time.
Amount of substrate 20 40 60
120
Time (in seconds)

88. We can show this as a graph
RIGHT!!
The amount of substrate should go on the Y axis.
Amount of substrate
REMEMBER!! STARCH is the SUBSTRATE.
A blue-black color means that there is
MORE STARCH.
The concentration of SUBSTRATE increases
up the Y axis. 20 40 60
120
Time (in seconds)

89. Let’s GRAPH!!
Amount of substrate 20 40 60
120
Time (in seconds)

90. Answer Question 8!
SUMMARIZE THE GRAPH
As time goes on, the amount of SUBSTRATE (starch)….
INCREASED
DECREASED

91. As time goes on, the amount of SUBSTRATE (starch)
TRY AGAIN
As time goes on, the amount of SUBSTRATE (starch)
INCREASED
DECREASED

92. SUMMARIZE THE GRAPH
As time goes on, the amount of SUBSTRATE (starch) DECREASED because
Starch was broken down by amylase
Iodine made starch turn into sugar

93. As time goes on, the amount of SUBSTRATE (starch) DECREASED because
TRY AGAIN
As time goes on, the amount of SUBSTRATE (starch) DECREASED because
Starch was broken down by amylase
Iodine made starch turn into sugar

94. SUMMARIZE THE GRAPH
As time goes on, the amount of SUBSTRATE (starch) DECREASED because the enzyme, amylase, broke down the starch into sugar.

95. Which of these graphs shows that the amount of substrate decreases faster?
(Click on a graph)
Graph A
Graph B
Substrate
Substrate
Time (sec)
Time (sec)

96. TRY AGAIN
No. Note that in Graph A, all of the substrate is used up in less time.
Graph A
Graph B
Substrate
Substrate
Time (sec)
Time (sec)

97. RIGHT!!
YES. Note that in the Graph A, all of the substrate is used up in less time.
Graph A
Graph B
Substrate
Substrate
Time (sec)
Time (sec)

98. So… Which enzyme works FASTER? Substrate Substrate Time (sec)
Graph A
Graph B
Substrate
Substrate
Time (sec)
Time (sec)

99. TRY AGAIN
Nope, not this one. The faster the enzyme works, the faster the substrate will decrease.
Graph A
Graph B
Time (sec)
Substrate
Substrate
Time (sec)

100. Answer Question 9!
RIGHT!!
YES!! We can tell that the Graph A enzyme works faster because the substrate decreases faster!!
Graph A
Graph B
Time (sec)
Substrate
Substrate
Time (sec)

101. Look at the reactions in the beakers and the graphs
Look at the reactions in the beakers and the graphs. The top set of beakers are best illustrated by which graph?
Graph C
Substrate
Time (sec)
Graph D
Substrate
Time (sec)

102. NO. The reaction in the top set of beakers took LONGER to finish
Graph C
Substrate
Time (sec)
Graph D
Substrate
Time (sec)

103. RIGHT!! The reaction in the top set of beakers occurred more slowly than the reaction in the bottom set.
Graph C
Substrate
Time (sec)
Graph D
Substrate
Time (sec)

104. So, we may say that one of the enzymes worked faster than the other
So, we may say that one of the enzymes worked faster than the other. In which set of beakers did the enzymes work faster?
Graph C
Substrate
Time (sec)
Graph D
Substrate
Time (sec)

105. Which of the ENZYMES worked FASTER
Which of the ENZYMES worked FASTER? Nope, this reaction took longer to finish, so this enzyme worked more slowly.
Time (sec)
Substrate
Substrate
Time (sec)

106. RIGHT!! This reaction ended SOONER, thus the enzyme worked FASTER.
Substrate
Time (sec)
What might be the difference
between the top and bottom sets
of beakers?

107. What do you think can affect the speed or reaction rate of an enzyme?
TEMPERATURE pH
AMOUNT OF
LIGHT

108. What do you think can affect the speed or reaction rate of an enzyme?
TEMPERATURE
RIGHT!! Changing the pH of the reaction can affect the speed of an enzyme.
ANYTHING ELSE? pH
AMOUNT OF
LIGHT

109. What do you think can affect the speed or reaction rate of an enzyme?
Answer Question 10!
What do you think can affect the speed or reaction rate of an enzyme?
TEMPERATURE
RIGHT!! Changing the temperature of the reaction can ALSO affect the speed of an enzyme. pH
AMOUNT OF
LIGHT

110. What do you think can affect the speed or reaction rate of an enzyme?
TEMPERATURE
RIGHT!! Changing the temperature of the reaction can affect the speed of an enzyme.
ANYTHING ELSE? pH
AMOUNT OF
LIGHT

111. What do you think can affect the speed or reaction rate of an enzyme?
TEMPERATURE
RIGHT!! Changing the pH of the reaction can ALSO affect the speed of an enzyme. pH
AMOUNT OF
LIGHT

112. What do you think can affect the speed or reaction rate of an enzyme?
TEMPERATURE
Sorry, most enzymes are NOT affected by the amount of light…
Pick again pH
AMOUNT OF
LIGHT

113. Factors affecting enzyme reaction rate…
Answer Question 11!
We can make a graph of enzyme speed at different temperatures. However, from now on we will refer to “enzyme speed” as reaction rate or rate of enzyme activity.

114. Let’s GRAPH!!
FAST
Amylase is found in saliva. Click on the red button that is approximately at body temperature
Rate of Enzyme Activity
SLOW 10 20 30 40 50 60
Temperature (C)

115. TRY AGAIN Amylase is found in saliva. 5C is close to freezing.
FAST
Amylase is found in saliva.
5C is close to freezing.
TOO COLD!!
Rate of Enzyme Activity
SLOW 10 20 30 40 50 60
Temperature (C)

116. TRY AGAIN Amylase is found in saliva.
FAST
Amylase is found in saliva.
22C is close to room temperature.
TOO COLD!!
Rate of Enzyme Activity
SLOW 10 20 30 40 50 60
Temperature (C)

117. TRY AGAIN Amylase is found in saliva. 55C is 131F. TOO HOT!! FAST
Rate of Enzyme Activity
SLOW 10 20 30 40 50 60
Temperature (C)

118. Let’s GRAPH!! Amylase is found in saliva. 37C is body temperature.
FAST
Amylase is found in saliva.
37C is body temperature.
RIGHT!! Amylase will work best at about 37C because it is normally found in your mouth
Rate of Enzyme Activity
SLOW 10 20 30 40 50 60
Temperature (C)

119. Let’s GRAPH!! Amylase works slowly at low temperatures. FAST SLOW 10
Rate of Enzyme Activity
SLOW 10 20 30 40 50 60
Temperature (C)

120. Let’s GRAPH!! Amylase will work faster as the temperature gets
closer to human body
temperature, 37°C.
Rate of Enzyme Activity
SLOW 10 20 30 40 50 60
Temperature (C)

121. Let’s GRAPH!! Amylase will work fastest at body Temperature. FAST
Rate of Enzyme Activity
The temperature where Amylase works BEST is called the OPTIMUM TEMPERATURE
SLOW 10 20 30 40 50 60
Temperature (C)

122. Let’s GRAPH!! FAST SLOW 10 20 30 40 50 60 Temperature (C)
As the temperature
increases above 37ºC,
Amylase works less
and less efficiently.
Rate of Enzyme Activity
SLOW 10 20 30 40 50 60
Temperature (C)

123. OPTIMUM TEMPERATURE for amylase.
Let’s GRAPH!!
Click on the
OPTIMUM TEMPERATURE for amylase.
FAST
Rate of Enzyme Activity
SLOW 10 20 30 40 50 60
Temperature (C)

124. OPTIMUM TEMPERATURE for amylase.
Let’s GRAPH!!
Click on the
OPTIMUM TEMPERATURE for amylase.
FAST
Rate of Enzyme Activity
RIGHT!!
SLOW 10 20 30 40 50 60
Temperature (C)

125. What is the optimum temperature for this enzyme?
Temperature (C) 20 50 60 10 40 30
Rate of Enzyme Activity
SLOW
FAST
10C
20C
30C

126. Remember, the enzyme works fastest at its
TRY AGAIN
Temperature (C) 20 50 60 10 40 30
Rate of Enzyme Activity
SLOW
FAST
Remember, the enzyme works fastest at its
optimum temperature.
10C
20C
30C

127. Remember, the enzyme works fastest at its
TRY AGAIN
Temperature (C) 20 50 60 10 40 30
Rate of Enzyme Activity
SLOW
FAST
Remember, the enzyme works fastest at its
optimum temperature.
10C
20C
30C

128. RIGHT!!

129. What is the optimum pH for this enzyme?
FAST 9
Rate of Enzyme Activity 10 11
SLOW 2 4 6 8 10 12 pH

130. 9 10 11 TRY AGAIN Look closely… FAST SLOW 2 4 6 8 10 12 pH
Rate of Enzyme Activity 10 11
SLOW 2 4 6 8 10 12 pH

131. 9 10 11 TRY AGAIN Look closely… FAST SLOW 2 4 6 8 10 12 pH
Rate of Enzyme Activity 10 11
SLOW 2 4 6 8 10 12 pH

132. RIGHT!!

133. What is the optimum temperature for this enzyme?
FAST
20C
Rate of Enzyme Activity
63C
48C
SLOW 20 30 40 50 60 70 80
Temperature (C)

134. 20C 63C 48C TRY AGAIN FAST SLOW 20 30 40 50 60 70 80
Rate of Enzyme Activity
63C
48C
SLOW 20 30 40 50 60 70 80
Temperature (C)

135. 20C 63C 48C TRY AGAIN FAST SLOW 20 30 40 50 60 70 80
Rate of Enzyme Activity
63C
48C
SLOW 20 30 40 50 60 70 80
Temperature (C)

136. RIGHT!!
Right!!
You rock at this...

137. At what temperature does this enzyme work best?
Time
Substrate
Rate of Enzyme
activity at 25°C
Time
Substrate
Rate of Enzyme
activity at 30°C
Time
Substrate
Rate of Enzyme
activity at 35°C
At 25C
At 30C
At 35C

138. REMEMBER: The faster the amount of substrate decreases, the faster the enzyme is working.
Time
Substrate
Rate of Enzyme
activity at 25°C
Time
Substrate
Rate of Enzyme
activity at 30°C
Time
Substrate
Rate of Enzyme
activity at 35°C
At 25C
At 30C
At 35C

139. REMEMBER: The faster the amount of substrate decreases, the faster the enzyme is working.
Time
Substrate
Rate of Enzyme
activity at 25°C
Time
Substrate
Rate of Enzyme
activity at 30°C
Time
Substrate
Rate of Enzyme
activity at 35°C
At 25C
At 30C
At 35C

140. RIGHT!!
Congratulations, you have completed the Enzyme Activity. Time for a quick self-quiz!

141. QUIZ - QUESTION 1 SALIVA LIVER STOMACH
Where in your body is the amylase enzyme found?
SALIVA
LIVER
STOMACH

142. TRY AGAIN SALIVA LIVER STOMACH
Where in your body is the amylase enzyme found?
SALIVA
LIVER
STOMACH

143. TRY AGAIN SALIVA LIVER STOMACH
Where in your body is the amylase enzyme found?
SALIVA
LIVER
STOMACH

144. RIGHT!!

145. QUIZ - QUESTION 2 Click on the CATALYST in this reaction: SUGAR STARCH
AMYLASE

146. TRY AGAIN
REMEMBER: The catalyst performs the reaction, but is not used up
SUGAR
STARCH
AMYLASE

147. TRY AGAIN
REMEMBER: The catalyst performs the reaction, but is not used up
SUGAR
STARCH
AMYLASE

148. RIGHT!!

149. QUIZ - QUESTION 3
Click on the substrate that is most likely to react with the enzyme below:
Substrate A
Substrate B
Substrate C
Enzyme

150. TRY AGAIN
REMEMBER: The enzyme that fits the shape of the substrate will be the one that reacts with it.
Substrate A
Substrate B
Substrate C
Enzyme

151. TRY AGAIN
REMEMBER: The enzyme that fits the shape of the substrate will be the one that reacts with it.
Substrate A
Substrate B
Substrate C
Enzyme

152. RIGHT!!
Substrate B
Enzyme

153. QUIZ - QUESTION 4
Which of these is most likely the name of an enzyme that reacts with a protein molecule?
PROTEOSE
PROTEINATION
PROTOZOA
PROTEASE

154. TRY AGAIN
NO: Sugars end in -OSE, (sucrose, lactose, glucose). By the way, “Proteose” is not a real sugar!
PROTEOSE
PROTEINATION
PROTOZOA
PROTEASE

155. TRY AGAIN NOPE: think about “lactase” and “amylase” PROTEOSE
PROTEINATION
PROTOZOA
PROTEASE

156. TRY AGAIN NOPE: think about “lactase” and “amylase” PROTEOSE
PROTEINATION
PROTOZOA
PROTEASE

157. RIGHT!!
PROTEASE

158. QUIZ - QUESTION 5
Click on the part of the graph that shows the OPTIMAL temperature for this enzyme
Enzyme Activity
Temperature (C)

159. TRY AGAIN
REMEMBER: the optimal temperature for an enzyme is the temperature at which the enzyme works best (has highest rate of activity).
Enzyme Activity
Temperature (C)

160. RIGHT!!

161. QUIZ - QUESTION 6
Click on the graph that shows the optimum pH for this enzyme.
pH = 5.0
pH = 7.0
pH = 3.0
Substrate
Substrate
Substrate
Time
Time
Time

162. TRY AGAIN
REMEMBER: Substrate decreases faster as the enzyme works faster.
pH = 5.0
pH = 7.0
pH = 3.0
Substrate
Substrate
Substrate
Time
Time
Time

163. TRY AGAIN
REMEMBER: Substrate decreases faster as the enzyme works faster.
pH = 5.0
pH = 7.0
pH = 3.0
Substrate
Substrate
Substrate
Time
Time
Time

164. RIGHT!!

165. RIGHT!!

166. You have successfully completed the Enzyme Activity!
CONGRATULATIONS!