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Chapter 2 Life Science. Plant Cell Plants are autotrophs – they make their own food. Plants are autotrophs – they make their own food. They use the process.

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Presentation on theme: "Chapter 2 Life Science. Plant Cell Plants are autotrophs – they make their own food. Plants are autotrophs – they make their own food. They use the process."— Presentation transcript:

1 Chapter 2 Life Science

2 Plant Cell Plants are autotrophs – they make their own food. Plants are autotrophs – they make their own food. They use the process of photosynthesis to convert energy from the sun in the form of EMR into glucose. They use the process of photosynthesis to convert energy from the sun in the form of EMR into glucose. Glucose stores the chemical energy until needed by the plant. Glucose stores the chemical energy until needed by the plant. Photosynthesis takes place in the chloroplasts found in plant cells. Photosynthesis takes place in the chloroplasts found in plant cells. Photosynthesis takes place in the chloroplasts of plant cells

3 Chloroplast 2 main parts surrounded by membranes 2 main parts surrounded by membranes Grana – stacks of Thylakoids “coins” Grana – stacks of Thylakoids “coins” Stroma – aqueous space between grana Stroma – aqueous space between grana

4 Photosynthesis

5 Photosynthesis: Converts sunlight energy into food for the plant. Takes place in the chloroplast Has a light (grana) & dark reaction (stroma) 6CO 2 + 6H 2 O  C 6 H 12 O 6 + 6O 2

6 Photosynthesis: overall reaction 6CO 2 + 6H 2 O  C 6 H 12 O 6 + 6O 2 Reactants: carbon dioxide & water In the presence of sunlight & chlorophyll Yield Products: Glucose and oxygen

7 Light Reaction – Takes place in the Grana Requires sunlight Requires sunlight Photons from sun & water, H 2 0, from the plant come into the grana. Photons from sun & water, H 2 0, from the plant come into the grana. Chlorophyll kicks off an electron from the splitting of H 2 O into hydrogen & Oxygen. Chlorophyll kicks off an electron from the splitting of H 2 O into hydrogen & Oxygen. ADP (low energy) is converted into ATP (high energy) ADP (low energy) is converted into ATP (high energy) NADP + (low energy) is converted into NADPH (high energy) NADP + (low energy) is converted into NADPH (high energy) In summary: Photons, water, ADP & NADP + in… Oxygen, ATP & NADPH out

8 Dark Reaction – Takes place in the Stroma Takes place day or night, no sun required Takes place day or night, no sun required ATP (high energy) & NADPH (high energy) along with carbon dioxide in the stroma. ATP (high energy) & NADPH (high energy) along with carbon dioxide in the stroma. Goes through the Calvin Cycle and converts them into glucose. Goes through the Calvin Cycle and converts them into glucose. ADP (low energy) & NADP + (low energy) ADP (low energy) & NADP + (low energy) ATP & NADPH are short term high energy molecules ATP & NADPH are short term high energy molecules ADP & NADP+ are short term low energy molecules ADP & NADP+ are short term low energy molecules Glucose is a long term high energy molecule Glucose is a long term high energy molecule In summary: Carbon dioxide, ATP & NADPH in… Glucose, ADP & NADP + out

9 Photosynthesis - Summary

10 Cellular Respiration C 6 H 12 O 6 + 6O 2  6CO 2 + 6H 2 O Plants store energy as glucose made during the process of photosynthesis. (6CO 2 +6H 2 O  C 6 H 12 O 6 +6O 2 ) Plants store energy as glucose made during the process of photosynthesis. (6CO 2 +6H 2 O  C 6 H 12 O 6 +6O 2 ) Both plants & animal cells utilize glucose & release the stored energy. Both plants & animal cells utilize glucose & release the stored energy. Energy released by cells done mainly in the Mitochondria Energy released by cells done mainly in the Mitochondria

11 Aerobic Cellular Respiration 2 Part Process: 2 Part Process: In the cytoplasm, Glucose molecule is broken into 2 pyruvate molecules In the cytoplasm, Glucose molecule is broken into 2 pyruvate molecules In the mitochondria, Krebs Cycle converts them into 36 ATP molecules In the mitochondria, Krebs Cycle converts them into 36 ATP molecules Remember: C 6 H 12 O 6 –Glucose, long term high energy ATP –adenosine triphosphate. Short term high energy ADP –adenosine diphosphate. Short term low energy

12 Anaerobic Respiration 2 types: Alcohol & Lactic Acid Fermentations 2 types: Alcohol & Lactic Acid Fermentations Alcohol - yeast, a fungus, converts sugars into alcohol & releases energy Lactic Acid - muscles without enough Oxygen convert sugars into lactic acid to release the needed energy for contractions.


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