1. METABOLISM The sum of all chemical reactions in an organism.

2. A. ANABOLIC = Involves building larger molecules from smaller ones (these are endergonic) 2 Kinds of Metabolic Reactions Amino Acid + Amino Acid + Amino Acid Protein B. CATABOLIC = Involves breaking down larger molecules into smaller ones (these are typically exergonic) Protein Amino Acid + Amino Acid + Amino Acid

3. ENERGY FOR LIFE ENERGY is defined as, The ability to do WORK 2 Kinds of energy 1.POTENTIAL ENERGY- Stored energy eg. Energy stored in food 2. KINETIC ENERGY- Energy of Motion eg. Moving organism

4. Did you see evidence of Kinetic Energy? Time Lapse of Raddish Seed Germination What is the source of the Kinetic Energy?

6. Exergonic and Endergonic Reactions in Metabolism An exergonic reaction proceeds with a net release of free energy and is spontaneous An endergonic reaction absorbs free energy from its surroundings and is nonspontaneous Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings

7. Exergonic Reaction

10. Endergonic Reaction

11. Where Does the Energy Come From For Activation And To Drive Endergonic Reactions? ATP Adenosine Triphosphate

12. Where Does ATP Come From? It’s Made By Cells Using one of Two Methods A. PHOTOSYNTHESIS and B. RESPIRATION

13. Energy Processes In photosynthesis, the products of one reaction get consumed in the next reaction. This series of reactions is called a biochemical pathway. – Almost like many assembly lines connected together Equation for photosynthesis Carbon Dioxide + Water -> Oxygen + Biomolecules ( carbos. )

14. Algae changes the world Early Earth had an atmosphere with no oxygen in it The only living things emitted oxygen as a waste product This changed the atmosphere Ironically, those species died

15. chloroplasts Chloroplasts absorb light Flattened discs inside are called thylakoids Stacks of thylakoids = granum Fluid that all this is sitting in = stroma

17. Lights, Chlorophyll, Action We see energy of different wavelengths as different kinds of color Pigments are compounds that absorb light If a color is absorbed it doesn’t reflect The color black absorbs most of the colors

19. Pigments Chlorophyll is a pigment – It comes in two kinds a and b a absorbs more red light than b b only helps a so its an accessory pigment Green light is reflected from chlorophylls so plants appear green

20. absorption spectra of photosynthetic pigments

21. Other pigments Carotenoids absorb other colors and reflect earth tones You don’t normally see it until chlorophyll dies When does that happen during the year?

22. Converting light  Chemical Energy Pigments capture light We’re going to store it in ATP & NADPH – Oxygen is a waste product of this reaction Pigments are clustered in photosystems

24. Steps of photosynthesis 1.Electrons get excited in photosystem II, and they want to leave. 2.Primary electron acceptor is sitting next to photosystem II, waiting to take those electrons 3.There’s a chain of molecules waiting to grab these electrons. Together, they’re all called the electron transport chain. Energy from this is used to make a concentration gradient of H + 4.More light comes into another photosystem, photosystem I, another set of electrons start getting passed along 5.Finally energy from the electrons getting passed along is used to put a hydrogen on NADP + making it NADPH

25. Electron transport, simplified a little All going on in a thylakoid 1.Chlorophyll a molecules in Photosystem II get excited from light 2.e - are passed to the primary e - acceptor 3.e - go down an electron transport chain 4.These e - come into Photosystem I because Photosystem I just gave away a pair 5.Another electron transport chain combines NADP + with a Hydrogen atom to get NADPH Note where water gets split in all of this

26. CHEMIOSMOSIS Creating ATP using a membrane protein

27. Chemiosmosis Part of the light reactions is the creation of ATP The energy for this comes from the concentration gradient of Hydrogen protons (H + ) There are more H + inside the cell than outside ATP Synthase lets H + out and harnesses energy from that to make ATP

29. We can’t let the plants get away with it The opposite of photosynthesis is cellular respiration Equation for cellular respiration Biomolecules + Oxygen -> Carbon Dioxide + Water

31. Now You Should Be Able To: Define Metabolism and give examples of 2 contrasting types of metabolic reactions Give an example of organisms doing work Explain how ATP performs cellular work Explain why an investment of activation energy is necessary to initiate the spontaneous reaction Describe the mechanisms by which enzymes lower activation energy

32. Explain where plants get the energy they need to do their work Explain the role of light and pigments in photosynthesis Explain the role of electron carrier molecules in photosynthesis State the overall equation for photosynthesis Identify factors that affect the rate at which photosynthesis occurs