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Energy and Photosynthesis

Energy and Photosynthesis. Biology Part II. Energy in Living Things. Two Groups of Living Organisms in the Way they meet their Energy needs: Autotrophs: plants and other living things that build organic molecules from inorganic substances internally (auto-by themselves)

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Energy and Photosynthesis

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  1. Energy and Photosynthesis Biology Part II

  2. Energy in Living Things • Two Groups of Living Organisms in the Way they meet their Energy needs: • Autotrophs: plants and other living things that build organic molecules from inorganic substances internally (auto-by themselves) • Heterotrophs: organsims that do not make their own food but depend on autotrophs for their food directly or indirectly

  3. How do autotrophs make their own food?

  4. Photosynthesis • All of the Energy on the Earth comes from the Sun and it drives the chemical reactions that creates all other forms of energy in life. • Therefore, most all autotrophs-get their food directly or indirectly from the sun. • The Sun’s energy is trapped in the organelles of a plant cell called the CHLOROPLAST or PLASTID. • It uses the suns energy with the help of chlorophyll,CO2, ,AND H2O to produce glucose and O2 .

  5. Respiration • Is the process of breaking that Glucose molecule down and releasing that stored energy and Oxygen. • Overall-Photosynthesis-Allows Plants to take in Light and Carbon dioxide- turn it in to Sugar and release Oxygen into the atmosphere---Yipee.

  6. ATP • USABLE Energy is stored in a molecule called ATP. • ADENOSINE TRI PHOSPHATE • THREE PARTS: • Adenine • Ribose • 3 Phosphate groups • Its written as A-P-P-P the energy is between the P’s. When the P bonds are broken energy is released.

  7. Biochemical Cycle-ATP-ADP • Those P bonds must be broken before cells can use the energy stored in ATP. So, an enzyme • (a Protein that CUTS stuff) • called ATP ase-----Ase means to cut whatever the word is in front of it… • So whenever a cell needs energy, it sends out ATPase to cut the bond between the 2nd and 3rd Phosphate group..and then ADP is formed. • ( If ATP is triphosphate…what is ADP-)

  8. ATP-ADP Cycle continued • So, then energy is released…and then ATPase comes along and breaks the P bond between the 1st and 2nd P group and you are left with AMP and energy. • (If ADP is Adenosine Diphosphate- I wonder what AMP stands for) • The formation of ADP or ATP is the reverse of its breakdown. It occurs with the help of an enzyme • ( protein) called ATP synthetase….a protein that builds-not breaks.

  9. Let's Dive Deeper

  10. Photosynthesis-Chemical Reactions • Phostosynthesis: • Energy from Sun+6CO2+6H20 • This chemical reaction takes place in basically two steps: • The light reactions-which require light to form ATP and the Hydrogen carrier molecule • The dark reactions- which require no light to use ATP and Carbon dioxide to form sugar C6H12O6 +6O2

  11. The Chloroplast • Both the Light and Dark reactions take place in the Chloroplast. • Organelle • Number of Chloroplasts in Plant Cells • Plant cell only • Structure of Chloroplast • Thylakoid, lumen, grana, stroma,-see page 208

  12. Plant cell and chloroplast

  13. Chlorophyll • Primary pigment of plants • Job is to capture sun’s rays • When sun’s rays…blue and red only are captured, the green rays are reflected and thus plants are seen as green. • When Chlorophyll absorb those waves their molecules are excited and electrons jump off ..which is necessary for photosynthesis.

  14. Carotenoids and Phycobilins • Beta Carotene..Carrots, and autumn leaves all have one thing in common.. • ACCESSORY PIGMENTS • Chlorophyll…cannot do it all with just the red and blue light of the sun’s rays so the accessory pigments of carotenoids/xanthophylls-yellow, orange and browns, and the phycobyllins which are the red and blues hues…capture the rest of the sun’s rays and give the rest of the energy to chlorophyll during photosynthesis.

  15. Light Reactions • PAY ATTENTION OR YOU WILL GET LOST…. • Sunlight hits chlorophyll • Chlorophyll’s electrons get excited and one escapes….this happens more than once during photosynthesis • Two molecules of water are split. Two hydrogens form ions H . Then the two Oxygen ions come together to form Oxygen gas and are released into the atmosphere.

  16. Two more Molecules • The Hydrogen Ions that split from the water are picked up by NADP-to form NADPH—its just a bucket used to pick up H’s. Now if the H’+s build up, the cell becomes like a magnet and it needs to be balanced out by electrons (e-’s) They both travel up and down the electron transport chain creating ENERGY to be used in the next reaction and the H’s are carried over for the next reaction…IN THE DARK. • Let me give you the overall equation for Photosynthesis and you can see just how much we have covered: • Energy from Sun+6CO2+6H20 C6H12O6 +6O2 • So what have we used so far?

  17. Dark Reactions or the CALVIN CYCLE • These are called the Dark reactions because they do not require sunlight to occur. BUT they do require the ATP, NADPH from the light dep. Reactions to occur. • This time CO2 enters the plant and mixes with the ATP and NADPH to form a 6 carbon sugar called • GLUCOSE. • This cycle has to happen 6 times just to get 1 molecule of glucose.

  18. IN REVIEW • Glucose is the product of Photosynthesis as well as Oxygen…However, plants store the glucose and release the oxygen. • So to review • Photosynthesis happens in the chloroplasts. • Light dep. Reactions happen in the thylakoid • Light indep reactions happen in the stroma • Light dep. Uses light to form ATP, NADPH, split water and make oxygen gas • Light indep. Brings in carbon dioxide plus all of the stuff from light dep. Reactions to make six turns of the CALVIN cycle to produce glucose.

  19. Cellular Respiration • If animals and other life forms use a process that is directly reversed from the plants…what would its equation look like? • Energy fromSun+6CO2+6H20 • Or ATP • CELLULAR RESPIRATION?????? C6H12O6 +6O2

  20. Respiration • Before food can be used to perform work its energy must be released in the process of respiration. • There are two forms of respiration: • Aerobic • Anerobic

  21. Aerobic Respiration • Basically, how do humans use sugar or food as chemical energy? • Please look at the following formula: • C6H12O6 +6O2 6CO2+6H20 + 38 ATP • The REACTANTS THE PRODUCTS

  22. Basically • Sugar and Oxygen break down and give off water, Carbon Dioxide, and 38 molecules of Energy. • This happens in 3 STAGES • GLYCOLYSIS • KREB’s CYCLEELECTRON TRANSPORT CHAIN

  23. Review • Glycolysis which occurs without oxygen and turns glucoseinto Pyruvic Acid ( which is a 3-carbon molecule)…takes place in the cytoplasm of the cell. • KREB’s CYCLE occurs in the MITOCHONDRIA and turns pyruvic acid into citric acid and ATP and Carbon dioxide. • And the electron transport chain helps take the NADH and combine it with O2 to make water.

  24. The Formation of ATP • The Electron Transport Chain…. • In the inner membrane of the mitochondria ..it acts like a giant magnet.. • The positive parts of the magnet are the H+ molecules of the NADH+H and the FADH and H+ molecules…as they move through the membrane they attract electrons which are negative particles of the magnet.

  25. The formation of Water and ATP At the end of this magnet… • oxygen picks up some Hydrogens and makes a water molecule. • Now did you know that the word “electricity” comes from the movement of electrons…so, as our electrons in this inner membrane of the mitochondria are moving with the Hydrogens as a magnet, they are creating enough energy to help that enzyme ATP synthetase to create molecules of ATP and that is why ATP is found in the mitochondria.

  26. Anerobic Respiration • Anerobic respiration is the breakdown of food into energy without the use of oxygen. • So, if you are not breathing properly, you will undergo glycolysis-break down of glucose into pyruvic acid- but the acid will turn into either ALCOHOL or LACTIC ACID…which one do animals do?

  27. Fermentation-anerobic respiration • The breakdown of Pyruvic Acid without the use of oxygen to form LACTIC ACID or ALCOHOL • Fermentation occurs in two forms: • Lactic Acid –when pyruvic acid is turned into lactic acid-which pierces muscle cells in animals • Alcoholic- occurs in some plant and yeast cells as pyruvic acid is converted into ethyl alcohol without the use of oxygen

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