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Enzymes. And how they work. Enzymes. Enzymes are proteins – they are biological catalysts. . Enzymes. Enzymes are proteins – they are biological catalysts.
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Enzymes And how they work
Enzymes • Enzymes are proteins – they are biological catalysts.
Enzymes • Enzymes are proteins – they are biological catalysts. • This means they can speed up a reaction that would otherwise take months to occur while the enzyme itself is NOT CHANGED in the process.
Enzymes • Enzymes are proteins – they are biological catalysts. • This means they can speed up a reaction that would otherwise take months to occur while the enzyme itself is NOT CHANGED in the process. • Enzymes can therefore be used over and over again.
Enzymes • Enzymes are proteins – they are biological catalysts. • This means they can speed up a reaction that would otherwise take months to occur while the enzyme itself is NOT CHANGED in the process. • Enzymes can therefore be used over and over again.
Lock & Key model • Two enzymes of different shapes working together to fit into a reactive site.
Lock & Key model • Two enzymes of different shapes working together to fit into a reactive site. • When they fit together, an enzyme-substrate complex is formed and the two chemicals react.
Lock & Key model • Two enzymes of different shapes working together to fit into a reactive site. • When they fit together, an enzyme-substrate complex is formed and the two chemicals react joining together. • The enzyme then detaches itself and is ready to catalyse another two chemicals that fit. • ** Catalysts must be specific – eg they can only fit together, not to other ones… • http://www.youtube.com/watch?v=EiMBsgNZh-M
Induced fit model • Substrate binds to the enzyme, may induce a change in the shape of the enzyme molecules.
Induced fit model • Substrate binds to the enzyme, may induce a change in the shape of the enzyme molecules. • The change puts strain on the chemical bonds between the substrate molecules and causes them to react. • http://www.youtube.com/watch?v=z8lG8X9ZvxQ&feature=related
Induced fit model • Substrate binds to the enzyme, may induce a change in the shape of the enzyme molecules. • The change puts strain on the chemical bonds between the substrate molecules and causes them to react. • When the product is released, the enzyme returns to its original shape.
Activation energy barrier • Energy is needed to get the reaction going – this is activation energy barrier.
Activation energy barrier • Energy is needed to get the reaction going – this is activation energy barrier. • In a lab, you could use heat to speed up the reaction, but in your body, you can’t heat it up = enzymes.
Activation energy barrier • Energy is needed to get the reaction going – this is activation energy barrier. • In a lab, you could use heat to speed up the reaction, but in your body, you can’t heat it up = enzymes. • Enzymes are used to lower the activation energy barrier which allows molecules of relatively low energy to react.
Types of enzymes • Pepsin – breaks down protein in the stomach and works well in acidic conditions.
Types of enzymes • Pepsin – breaks down protein in the stomach and works well in acidic conditions. • Amylase – saliva enzyme which breaks down starch.
Factors affecting enzymes • Heat – ezymes catalyse a reaction faster if the temperature is up to 40-45 degrees. Above that, the enzyme denatures and can no longer cause a reaction.
Factors affecting enzymes • Heat – ezymes catalyse a reaction faster if the temperature is up to 40-45 degrees. Above that, the enzyme denatures and can no longer cause a reaction. • pH (acidity) – Each enzyme has a range of pH which is it’s optimal pH level = works the fastest.
Factors affecting enzymes • Heat – ezymes catalyse a reaction faster if the temperature is up to 40-45 degrees. Above that, the enzyme denatures and can no longer cause a reaction. • pH (acidity) – Each enzyme has a range of pH which is it’s optimal pH level = works the fastest. • Concentration – enzymes act faster if the substrate or the enzyme is increased.
Factors affecting enzymes • Heat – ezymes catalyse a reaction faster if the temperature is up to 40-45 degrees. Above that, the enzyme denatures and can no longer cause a reaction. • pH (acidity) – Each enzyme has a range of pH which is it’s optimal pH level = works the fastest. • Concentration – enzymes act faster if the substrate or the enzyme is increased. • Chemicals – heavy metal ions such as lead and mercury can slow down or even stop enzyme activity.
Factors affecting enzymes • Heat – ezymes catalyse a reaction faster if the temperature is up to 40-45 degrees. Above that, the enzyme denatures and can no longer cause a reaction. • pH (acidity) – Each enzyme has a range of pH which is it’s optimal pH level = works the fastest. • Concentration – enzymes act faster if the substrate or the enzyme is increased. • Chemicals – heavy metal ions such as lead and mercury can slow down or even stop enzyme activity.
Questions • Explain why enzymes are not destroyed by the reactions they catalyse. • The production of C02 by yeast cells during fermentation increases as the temp of the yeast culture is raised from 30 – 40 degrees C. Explain why this increase in production could not continue if the temperature were raised further. • Suggest a reason why life would be impossible without enzymes. • A piece of fish flesh was placed in a sample of liquid in a test tube taken from a cat’s stomach. It was incubated at 37 degrees. What effect would shaking the test tube sample have on the piece of fish flesh?
