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Chemical Reactions and Enzymes

Chemical Reactions and Enzymes. Energy in Reactions. Chemical reactions can release energy or absorb energy. Chemical rxns that release energy often happen spontaneously Chemical rxns that absorb energy usually don’t happen unless there is a source of energy. Examples.

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Chemical Reactions and Enzymes

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  1. Chemical Reactions and Enzymes

  2. Energy in Reactions • Chemical reactions can release energy or absorb energy. • Chemical rxns that release energy often happen spontaneously • Chemical rxns that absorb energy usually don’t happen unless there is a source of energy

  3. Examples • 2H2 + O2 2H2O Gives off energy (explosively) • 2H2O  2H2 + O2 (electrolysis – pass electric current through it)

  4. Energy • In order to stay alive, organisms need to carry out reactions that require energy • Why do you need energy? • Grow • Breath • Think • Dream • everything

  5. Activation Energy • The energy require to start a reaction is called “Activation Energy”

  6. Enzymes • Catalysts – substance that speeds up a reaction by lowering the activation energy • Enzymes are proteins that act as biological catalysts • Can accelerate a reaction by a factor of 1010 – 10 billion times faster! • Enzymes are very specific. Usually only one reaction

  7. Naming Enzymes • Part of the name of an enzyme usually derived from the reaction it catalyzes • Peptinase – helps peptin break down proteins in your small intestines • Carbonic anhydrase – catalyzes reaction that removes water from carbonic acid • “ase” is usually the suffix of an enzyme

  8. Enzyme Action • Reactants must collide with each other with enough energy to break the bonds and form new bonds • Enzymes provide a site where the reactants can be brought together to react

  9. Structure • The reactants in an enzyme catalyzed reaction are called substrates • Each protein has a specific, and complex shape • Active site is where the reactants bind to the enzyme • The active site and the reactants have complementary shapes – sometimes called “Lock and Key”

  10. Activation Energy Reaction pathway without enzyme Activation energy without enzyme Activation energy with enzyme Reactants Reaction pathway with enzyme Products

  11. Figure 2-21 Enzyme Action Section 2-4 Enzyme (hexokinase) Glucose Substrates ADP Products Glucose-6- phosphate ATP Products are released Active site Substrates bind to enzyme Enzyme-substrate complex Substrates are converted into products Go to Section:

  12. Figure 2-21 Enzyme Action Section 2-4 Enzyme (hexokinase) Glucose Substrates ADP Products Glucose-6- phosphate ATP Products are released Active site Substrates bind to enzyme Enzyme-substrate complex Substrates are converted into products Go to Section:

  13. Figure 2-21 Enzyme Action Section 2-4 Enzyme (hexokinase) Glucose Substrates ADP Products Glucose-6- phosphate ATP Products are released Active site Substrates bind to enzyme Enzyme-substrate complex Substrates are converted into products Go to Section:

  14. Figure 2-21 Enzyme Action Section 2-4 Enzyme (hexokinase) Glucose Substrates ADP Products Glucose-6- phosphate ATP Products are released Active site Substrates bind to enzyme Enzyme-substrate complex Substrates are converted into products Go to Section:

  15. Once done… • Once the reaction is complete, the products are released and the enzyme is free to catalyze another reaction • There are various methods to control enzyme activity • Temperature, pH, and proteins that can turn on or off activity at critical stages

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