2898004
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Mind Map by RSultan, updated more than 1 year ago
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Created by gordonbrad
over 9 years ago
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Copied by RSultan
over 9 years ago
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Enzymes_1
- Action of Enzymes
- What are enzymes?
- Enzymes are biological
catalysts that speed up
chemical reactions by reducing
the activation energy.
- They are globular proteins that have an active site
which has a specific shape that is determined by the
tertiary structure.
- The active site is complementary to the substrate, if it's
not, it won't bind and the reaction won't be catalysed.
- Enzymes are biological
catalysts that speed up
chemical reactions by reducing
the activation energy.
- How an enzyme works
- Enzymes reduce the activation energy of a reaction,
meaning the reaction will happen at a lower
temperature, speeding up the rate of reaction.
Annotations:
- Activation Energy = the minimum amount of energy needed to be supplied for a reaction to occur.
- When a substrate binds to an enzyme's active site,
an enzyme-substrate complex is formed.
- The formation of these is what
lowers the activation energy.
- The formation of these is what
lowers the activation energy.
- If two substrate molecules need to be joined, they are held by the
enzyme which reduces repulsion so they can join more easily.
- If the enzyme is catalysing a breakdown reaction,
fitting into the active sites strains the bonds in the
substrate which means it breaks up more easily.
- Enzymes reduce the activation energy of a reaction,
meaning the reaction will happen at a lower
temperature, speeding up the rate of reaction.
- What are enzymes?
- Enzyme Models
- Lock and Key
- The substrate fits into the enzyme in
the same way a key fits into a lock.
- The substrate fits into the enzyme in
the same way a key fits into a lock.
- 'Induced Fit'
- This model helps to explain why
enzymes are so specific.
- The substrate doesn't only have to be the right shape,
it has to make the active site change shape slightly.
- This model helps to explain why
enzymes are so specific.
- Lock and Key
- Factors Affecting Enzyme Activity
- Temperature
- Increases the kinetic energy, making
the molecules in the enzyme vibrate
more.
- The increased vibration breaks some of the the bonds which
changes the shape of the active site, denaturing the enzyme.
- The changed active site means the
substrate will no longer fit.
- Increases the kinetic energy, making
the molecules in the enzyme vibrate
more.
- pH
- If pH is too high, the increased H+ ions will
bond with the negative R groups in the enzymes
active site, meaning the substrate won't fit in.
- It can also break the bonds that hold the enzymes
tertiary structure in place, denaturing the enzyme.
- It can also break the bonds that hold the enzymes
tertiary structure in place, denaturing the enzyme.
- Enzyme Concentration
- The more enzymes there are, the more likely a
substrate molecule is to successfully collide.
- If the amount of substrate is limited, there comes a
point when there's more than enough enzyme but not
enough substrate so more enzyme has not effect.
- The more enzymes there are, the more likely a
substrate molecule is to successfully collide.
- If pH is too high, the increased H+ ions will
bond with the negative R groups in the enzymes
active site, meaning the substrate won't fit in.
- Substrate Concentration
- The more substrate there is, the more likely
there is to be a successful collision.
- At a saturation point, there are so many substrate
molecules that the enzymes active sites are all full so
adding more substrate has no effect.
- The more substrate there is, the more likely
there is to be a successful collision.
- Temperature
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