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C1.1.15. Competitive inhibition as a consequence of an inhibitor binding reversibly to an active site
Description
[N/A]Directly related questions
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19N.1A.HL.TZ0.29:
The grey line in each of the graphs below represents the rate of reaction catalysed by an uninhibited enzyme as substrate concentration is increased.
Which graph shows expected results if a competitive inhibitor was added to the reaction?
[Source: © International Baccalaureate Organization 2019]
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19N.1A.HL.TZ0.29:
The grey line in each of the graphs below represents the rate of reaction catalysed by an uninhibited enzyme as substrate concentration is increased.
Which graph shows expected results if a competitive inhibitor was added to the reaction?
[Source: © International Baccalaureate Organization 2019]
-
19N.1A.HL.TZ0.29:
The grey line in each of the graphs below represents the rate of reaction catalysed by an uninhibited enzyme as substrate concentration is increased.
Which graph shows expected results if a competitive inhibitor was added to the reaction?
[Source: © International Baccalaureate Organization 2019]
-
19N.1A.HL.TZ0.29:
The grey line in each of the graphs below represents the rate of reaction catalysed by an uninhibited enzyme as substrate concentration is increased.
Which graph shows expected results if a competitive inhibitor was added to the reaction?
[Source: © International Baccalaureate Organization 2019]
- 20N.1A.HL.TZ0.29: Sulfanilamide inhibits an enzyme that catalyses a reaction involving PABA, an intermediate in the...
- 20N.1A.HL.TZ0.29: Sulfanilamide inhibits an enzyme that catalyses a reaction involving PABA, an intermediate in the...
- 20N.1A.HL.TZ0.29: Sulfanilamide inhibits an enzyme that catalyses a reaction involving PABA, an intermediate in the...
- 20N.1A.HL.TZ0.29: Sulfanilamide inhibits an enzyme that catalyses a reaction involving PABA, an intermediate in the...
- 21M.1A.HL.TZ2.29: The dashed line shows the relationship between the activity of an enzyme and the concentration of...
- 21M.1A.HL.TZ2.29: The dashed line shows the relationship between the activity of an enzyme and the concentration of...
- 21M.1A.HL.TZ2.29: The dashed line shows the relationship between the activity of an enzyme and the concentration of...
- 21M.1A.HL.TZ2.29: The dashed line shows the relationship between the activity of an enzyme and the concentration of...
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21N.2.HL.TZ0.8c:
Distinguish between competitive and non-competitive enzyme inhibition.
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21N.2.HL.TZ0.8c:
Distinguish between competitive and non-competitive enzyme inhibition.
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21N.2.HL.TZ0.c:
Distinguish between competitive and non-competitive enzyme inhibition.
-
21N.2.HL.TZ0.8c:
Distinguish between competitive and non-competitive enzyme inhibition.
-
21N.2.HL.TZ0.8c:
Distinguish between competitive and non-competitive enzyme inhibition.
-
21N.2.HL.TZ0.c:
Distinguish between competitive and non-competitive enzyme inhibition.
- 22M.1A.HL.TZ1.29: The graph shows the effect of increasing substrate concentration on the rate of an...
- 22M.1A.HL.TZ1.29: The graph shows the effect of increasing substrate concentration on the rate of an...
- 22M.1A.HL.TZ1.29: The graph shows the effect of increasing substrate concentration on the rate of an...
- 22M.1A.HL.TZ1.29: The graph shows the effect of increasing substrate concentration on the rate of an...
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- 22M.1A.HL.TZ2.29: Ethylene glycol is used as an antifreeze chemical. If a person ingests it accidentally, ethylene...
- 22M.1A.HL.TZ2.29: Ethylene glycol is used as an antifreeze chemical. If a person ingests it accidentally, ethylene...
- 22M.1A.HL.TZ2.29: Ethylene glycol is used as an antifreeze chemical. If a person ingests it accidentally, ethylene...