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Energy and Metabolism (Bioenergetics)

Energy and Metabolism (Bioenergetics). Lecture #5. ENERGY. The capacity to do work All life processes require energy. Source Distribution. Two Types of Energy. 1. Potential energy – stored energy. Two Types of Energy. 2. Kinetic energy – energy of motion….actually doing something.

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Energy and Metabolism (Bioenergetics)

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  1. Energy and Metabolism(Bioenergetics) Lecture #5

  2. ENERGY • The capacity to do work • All life processes require energy. • Source • Distribution

  3. Two Types of Energy 1. Potential energy – stored energy

  4. Two Types of Energy 2. Kinetic energy – energy of motion….actually doing something

  5. Much of the work of living organisms requires: potential energy kinetic energy Let’s talk about the principles of energy.

  6. Laws of Thermodynamics • 1st Law • Energy can neither be created nor destroyed. • It can only be converted from one form to another • Waterfall to electricity • Food to exercise • Energy transfer is not 100%…heat loss

  7. Laws of Thermodynamics • 2nd Law • Energy transfer causes things to go from more orderly state to a more disorderly state (entropy). • Disorder is more likely than order.

  8. Source of Energy

  9. Energy Source • Source is the sun. • How do living things capture the sun’s energy? • Plants, algae and some bacteria capture the sun’s energy. • This process is called photosynthesis.

  10. Energy Flow

  11. Energy Flow SUN PLANTS HEAT GIRAFFE HEAT LION

  12. Plants capture sun’s energy • How do we get energy out of plants and animals? • Input energy (activation energy) • Yield (output energy) • If (output) – (input) = 0 • So….we need to put in less than we get out • How do we do this?

  13. Enzymes • All enzymes are proteins (1 exception). • They convert substrate product. • They lower the activation energy.

  14. Enzymes Are Catalysts • The process of lowering the activation energy is catalysis. • An example: CO2 + H2O H2CO3 • The enzyme is carbonic anhydrase. • Without vs with enzyme

  15. CO2 + H2O H2CO3 • Substrate(s) • Product(s) • So…..how do enzymes do this catalysis?

  16. How Do Enzymes Work? • Enzymes are globular proteins.

  17. They have active sites – where substrates bind to the enzyme. • Enzymes are specific for substrates.

  18. 4..Amino acids in active site bind with substrate. 5. When enzyme binds with substrate, enzyme changes shape – induced fit.

  19. 6. One substrate

  20. 7. Two substrates CO2 + H2O H2CO3 • Enzyme is carbonic anhydrase. • This enzyme functions to bring the 2 substrates close together to allow efficient transfer of electrons.

  21. Factors AffectingEnzyme Activity • Substrate Product Concentration of substrate 2. Factors that affect the enzyme (a protein)

  22. Factors that affectthe enzyme molecule • Temperature • pH

  23. 3. Inhibitors • Inhibitors – substance that binds to the enzyme to decrease enzyme activity. • Two types of inhibitors • Competitive – binds to enzyme active site • Noncompetitive – binds elsewhere on enzyme

  24. 4. Cofactors • Cofactors are located in the active site. • Manganese & zinc are examples • NAD+ -- nicotinamide adenine dinucleotide

  25. Nicotinamide Adenine Dinucleotide

  26. NAD+ • NAD+ is missing an electron. • Enzyme binds substrate and NAD+. • Enzyme transfers two electrons from substrate to NAD+ • NAD+ NAD (1st electron) • NAD NADH (2nd electron) • Now…..NADH has a greater amount of energy (2e-)….which it can pass on.

  27. ATPThe energy currency of life • Adenosine triphosphate • Energy carrying/transferring molecule w/in the cell

  28. Structure of ATP

  29. Composition of ATP Consists of three components • 5-carbon sugar – ribose

  30. Composition of ATP • 5 – carbon sugar – ribose • Adenine (a purine)

  31. Composition of ATP • 5-carbon sugar – ribose • Adenine • Triphosphate P – P – P

  32. It is the bonds between the phosphates that possess large amount of energy. • When a cell needs energy for some process…. • ATP ADP + Pi + ENERGY • P – P – P P – P + P + ENERGY • The activation energy of catalysis of ATP to ADP is relatively small. • ATP is the universal energy donor.

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