Photosynthesis Chapter 8 (pages 200-219). Where energy comes from light energyPlants and some other...
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Transcript of Photosynthesis Chapter 8 (pages 200-219). Where energy comes from light energyPlants and some other...
![Page 1: Photosynthesis Chapter 8 (pages 200-219). Where energy comes from light energyPlants and some other types of organisms use light energy from the to produce.](https://reader035.fdocuments.us/reader035/viewer/2022070610/5a4d1b9f7f8b9ab0599c6c83/html5/thumbnails/1.jpg)
PhotosynthesisChapter 8 (pages 200-219)
![Page 2: Photosynthesis Chapter 8 (pages 200-219). Where energy comes from light energyPlants and some other types of organisms use light energy from the to produce.](https://reader035.fdocuments.us/reader035/viewer/2022070610/5a4d1b9f7f8b9ab0599c6c83/html5/thumbnails/2.jpg)
Where energy comes from•Plants and some other types of organisms
use light energy from the to produce food
▫Autotrophs: organisms that make their own food Use the sun’s energy to help make their
food▫Heterotrophs: organisms that do not
make their own food Where does their energy come from?
![Page 3: Photosynthesis Chapter 8 (pages 200-219). Where energy comes from light energyPlants and some other types of organisms use light energy from the to produce.](https://reader035.fdocuments.us/reader035/viewer/2022070610/5a4d1b9f7f8b9ab0599c6c83/html5/thumbnails/3.jpg)
ATP•Adenosine Triphosphate
▫Definition: One of the principal chemical compounds that cells use to store and release energy
▫Composed of: 5-carbon sugar (ribose) Adenine Three phosphate groups
adenine
ribose 3 phosphate groups
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ADP•Adenosine Diphosphate
▫Looks almost like ATP, but only two phosphate groups
▫When a cell has energy available to store, tacks on that extra phosphate group to ADP ATP
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Storing vs. Releasing Energy •To store energy add on a phosphate
group
•To release energy remove a phosphate group
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Using ATP• Active transport• Cell movement
• Responding the chemical signals• Protein synthesis
• Nucleic Acid synthesis
ATP is not good for storing energy glucose contains 90x the chemical energy that one ATP molecule has. Regenerate ATP from ADP by using energy in foods like glucose
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The Scientists of Photosynthesis•Van Helmont: found plants gain mass
from water•Priestley: plants release oxygen•Ingenhousz: plants produce oxygen in
sunlight, not in dark•Mayer: proposed plants convert light into
chemical energy•Calvin: traced chemical path that carbon
follows to form glucose (Calvin Cycle) we will get to this later
![Page 8: Photosynthesis Chapter 8 (pages 200-219). Where energy comes from light energyPlants and some other types of organisms use light energy from the to produce.](https://reader035.fdocuments.us/reader035/viewer/2022070610/5a4d1b9f7f8b9ab0599c6c83/html5/thumbnails/8.jpg)
Photosynthesis •Photosynthesis
the use of energy from sunlight to convert water and carbon dioxide into high-energy carbohydrates – sugar and starches – and oxygen as a waste product
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Light and Pigments•In addition to H2O and CO2, light and
chlorophyll needed▫Where’s chlorophyll found? In chloroplasts!
•Plants gather sun’s energy with light-absorbing molecules called pigments▫Principal pigment in plants chlorophyll▫Two types: chlorophyll a and chlorophyll
b Absorb light in blue and red region of
visible light spectrum When light is absorbed, energy levels of
electrons rise
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Inside a Chloroplast
Thylakoid
Stroma
Granum
Sac-like structure; Contains the
photosynthetic pigments, reaction
centers for LDR, and the electron transport
chain
Stack of thylakoids
The inner fluid of the chloroplast between the
grana which contains various enzymes and
where the Calvin Cycle occurs
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Electron Carriers•Sunlight excites electrons – hold energy
▫Would you want to transport the electron yourself or have something else transport it?
•Carrier needed to transport excited electron▫Carrier known as = electron transport
chain▫Actual Transporter = NADP+
Holds 2 high energy electrons Holds H+NADP
+e-
e-
- H+
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Light Dependent Reactions
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Pigments absorb light in photosystem II electrons excited passed to ETC thylakoid membrane replaces electrons with H2O H+, O, electrons
Excited electrons move through ETC to photosystem I energy fuels ETC to move H+ from stroma to inner thylakoid space
Pigments in photosystem I use light energy to reenergize electrons NADP+ picks up electrons and H+ NADPH
When electrons are passed from chlorophyll to NADP+, more H+ ions are pumped across the membrane difference in charges provides energy to make ATP
ATP synthase allows H+ ions to pass through ATP synthase rotates As it rotates, grabs ADP and bonds it to Phosphate group ATP!
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Calvin Cycle•Also known as the light independent
reactions (or dark reactions)▫No light required for them to start
•Occur in the stroma of the chloroplast•Use products of LDR as their reactants
NADPH, ATP•Give the products NADP+, ADP, high
energy sugars•Multiple steps!
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Calvin Cycle•Multiple steps take CO2 and convert into
multi-carbon containing molecules ▫Step 1: 6 CO2 and 6, 5-Carbon Molecules
12, 3-Carbon Molecules▫Step 2:
ATP ADP (energy storage for LDR) NADPH NADP+ (electron carrier for LDR)
▫Step 2: 12, 3-Carbon Molecules 2 fall off to make sugar (remember 6 carbons are in a monosaccharide)
▫Step 3: 10 3-Carbon Molecules 6, 5-Carbon Molecules ATP ADP
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Calvin Cycle
GLUCOSE
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Quick reviewLDR LIR
Reactants ADP, NADP+, H2O
ATP, NADPH, CO2
Products OXYGEN GLUCOSE
Location Thylakoid Membrane Stroma
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Factors that alter photosynthesis•Water availability
▫Which scientist figured this out? Van Helmont!
•Intensity of light▫Which scientists figured this out?
Ingenhousz!•Temperature
▫What temperature do enzymes function best? 98.6 degrees