Energy Transformation: Photosynthesis (Outline)faculty.sdmiramar.edu/bhaidar/Bio 107...
Transcript of Energy Transformation: Photosynthesis (Outline)faculty.sdmiramar.edu/bhaidar/Bio 107...
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Energy Transformation: Photosynthesis (Outline)
1. Current Connections & Overview of photosynthesis 2. Producers, consumers, and decomposers of the ecosystem (source
of carbon and energy): Autotrophs & Heterotrophs 3. Plant structures: organ, tissue, cells, sub-cellular organelle, and
molecules. 4. Visible Light and its wavelengths 5. Chloroplast structure 5. Overview of the two processes or pathways of photosynthesis Light reaction: Substrates, products, cellular components and their
location Calvin cycle: Substrates, products, cellular components and their
location 6. Specifics of the Light reaction and the Calvin Cycle - Light Reaction: Pigments within Photosystems, Location within
chloroplast, Photophosphorylation, Flow of energy - The Calvin cycle: Energy molecules, Carbon source, G3P
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Photosynthesis, Solar Radiation, and Earth’s Atmosphere
Two current global issues would affect life as we know it on earth:
- Global warming- CO2 emission (Greenhouse effect)
- Sources of energy (fossil fuel & Biofuel) Greenhouses used to grow plant trap solar
radiation, raising the temperature inside
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Greenhouses used to grow plant trap solar radiation, raising the temperature inside
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Excess CO2 in the atmosphere traps solar energy raising the temperature on earth contributing to global warming
Sunlight
ATMOSPHERE
Some heat energy escapes into space
Radiant heat trapped by CO2 and other gases
Environmental Tech DVD-Chapter 2
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Living organisms interact with their environment transforming energy
Sun Air
CO2 O2 CO2
H2O
Chemical energy
Inflow of light energy
Loss of heat energy
Producers
Cycling of
Chemical nutrients
Consumers
Decomposers
Soil Ecosystem
Energy flow and recycling of material
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Overall equation for cellular respiration
Overall equation for photosynthesis
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Producers of the ecosystem Autotrophs Produce their own food and sustain themselves without eating other organisms Bacteria Algae Plants
Figure 7.1A–D
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In plant cells, energy of light is converted to ATP and reducing power (NADPH), which are then used for converting CO2 into sugar
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Leaf Cross Section
Leaf
Mesophyll Cell
Mesophyll
Vein Stoma CO2 O2
Chloroplast
Chloroplast
Grana Stroma
TEM
9,7
50 ×
Stroma
Granum Thylakoid Thylakoid space
Outer membrane Inner membrane Intermembrane space
LM 2
,600
×
In plants, photosynthesis takes place in green leaves
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Overview of Photosynthesis 1. Light 2. Chloroplast Thylakoids (stacked as grana) The Light Reaction Stroma The Calvin Cycle
Chloroplast
Grana Stroma
Stroma
Granum Thylakoid Thylakoid space
Outer membrane
Inner membrane
Intermembrane space
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Figure 7.5
Light
CO2 H2O Chloroplast
LIGHT REACTIONS
(in thylakoids)
CALVIN CYCLE
(in stroma)
NADP+ ADP + P
ATP
NADPH
O Sugar
The Light reaction - Converts light energy to chemical energy (ATP &
NADPH) - Produces O2 from breakdown of water
The Calvin cycle - uses ATP & NADPH from light reaction to assemble
sugar molecules from CO2
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Chloroplasts Thylakoids (stacked as grana) Thylakoid membrane Photosystems: PS Chlorophyll Stroma
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Figure 7.5
Light
CO2 H2O
Chloroplast
LIGHT REACTIONS
(in thylakoids)
CALVIN CYCLE
(in stroma)
NADP+
ADP
+ P
ATP
NADPH
O Sugar
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Figure 7.8B
Splitting of water
e–
ATP
Mill makes
ATP
Photosystem II Photosystem I
NADPH e–
e– e–
e–
e–
e–
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Thylakoid space
Stroma
Thyl
akoi
d m
embr
ane
Photosystem II Photosystem I
Photon
e–
Photon
e–
H2O O2 H+ Electron transport chain
Provides energy for synthesis of by photophosphorylation
4
ATP
NADP+ H+ NADPH
Figure 7.8A
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Light Reaction/Photosystem II Light releases electrons captured by primary electron acceptor Water is split to replace the lost electrons Acceptor passes electrons to ETC Proton gradient is generated Photophsophorylation turns ADP + Pi into ATP
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Chloroplast
Stroma (low H+ concentration)
Light Light
NADP+ + H+ NADPH
H+
H+
H+ H+
ATP P ADP +
Thylakoid membrane
H2O 1 2 O2 2 H+ H+
H+ H+ H+
H+
H+
H+ H+
H+
H+
Photosystem II Electron transport chain
Photosystem I ATP synthase
Thylakoid space (high H+ concentration)
+
Figure 7.9
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Chemiosmosis powers ATP synthesis (photophosphorylation) The electron transport chain pumps H+ into the thylakoid space H+ diffuse back into the stroma across the membrane through ATP synthase Passage of H+ activates phosphorylation of ADP to produce ATP (photophosphorylation)
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Summary of the Light Reaction
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THE CALVIN CYCLE: CONVERTING CO2 TO SUGARS
Calvin cycle – Occurs in the chloroplast’s stroma – ATP and NADPH power sugar synthesis
• The first sugar molecule is G3P (3C) that is used to build glucose and other organic molecules
Input
CO2 ATP NADPH
CALVIN CYCLE
G3P Output:
RuBP
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Summary of Calvin Cycle
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Review: Photosynthesis uses light energy to make food molecules
Light
H2O CO2
NADP+
Photosystem II
Photosystem I
Electron transport
chains
ADP P +
RUBP CALVIN CYCLE
(in stroma) 3-PGA
Stroma
G3P NADPH
ATP
O2
LIGHT REACTIONS CALVIN CYCLE
Sugars
Cellular respiration Cellulose Starch Other organic compounds
Thylakoid membranes
Chloroplast