Photosynthesis

Subject: Biology
Topic: 4
Cambridge Code: 0610 / 0970 / 5090

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Overview

Photosynthesis - Process of converting light energy into chemical energy

$6CO_2 + 6H_2O + \text{light energy} \rightarrow C_6H_{12}O_6 + 6O_2$

Location: Chloroplast (in plant cells)

Importance:

• Produces glucose (food)
• Releases oxygen
• Basis of food chains

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Chloroplast Structure

Parts

Outer membrane: Permeable, controls entry

Inner membrane: Selectively permeable

Thylakoids: Disc-shaped sacs

• Stacked in grana
• Site of light reactions
• Contains chlorophyll

Stroma: Liquid-filled space

• Site of light-independent reactions
• Contains enzymes

Granum: Stack of thylakoids

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Light-Dependent Reactions

Location: Thylakoid membranes

Occurs: In presence of light

Process

1. Light absorption - Chlorophyll absorbs photons
2. Photolysis of water - Light splits H₂O: $2H_2O \rightarrow 4H^+ + 4e^- + O_2$
3. Electron transfer - Electrons move through thylakoid
4. ATP production - Energy used to produce ATP
5. Reduction of NADP - NADP⁺ reduced to NADPH

Products

• ATP - Energy carrier
• NADPH - Reducing agent
• Oxygen - Released (byproduct)

Light Intensity Effect

• Increases from 0 → Rate increases
• Plateaus at high intensity (other factors limit)

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Light-Independent Reactions (Calvin Cycle)

Location: Stroma

Occurs: Day and night (requires products from light reactions)

Three Stages

1. Carbon Fixation

• CO₂ combines with RuBP (5 carbons)
• Enzyme: RuBisCO
• Forms 3-phosphoglycerate (3 carbons × 2)

2. Reduction

• 3-phosphoglycerate reduced to triose phosphate
• Uses ATP and NADPH
• Some triose phosphate exits cycle

3. Regeneration

• Remaining triose phosphate regenerates RuBP
• Uses ATP

Products

• Glucose - Built from triose phosphate
• Other compounds - Amino acids, lipids

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Factors Affecting Photosynthesis

Light Intensity

• Limiting factor at low light
• Rate increases linearly
• Plateaus when other factors limit

Carbon Dioxide Concentration

• Limiting factor at low CO₂
• Rate increases with CO₂
• Plateaus at high CO₂

Temperature

• Increases enzyme activity (up to optimum ~25°C)
• Further increase denatures enzymes
• Enzyme activity decreases

Chlorophyll Content

• More chlorophyll = more light absorption
• Can be limiting factor

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Limiting Factors

Limiting factor - Factor in lowest relative amount

At any time, ONE factor limits rate:

• Low light? → Light is limiting
• Low CO₂? → CO₂ is limiting
• Low temperature? → Temperature is limiting

Practical Example

Plant grown under:

• Limiting light: Increase light → Rate increases
• Non-limiting light: Increase light → No change

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Adaptation to Light Conditions

Shade Plants

• Larger leaves with more surface area
• More chlorophyll (darker green)
• Thicker palisade layer
• Better at low light

Sun Plants

• Smaller leaves
• Less chlorophyll (lighter green)
• Thinner leaves with air spaces
• Efficient at high light

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Key Points

1. Photosynthesis converts light to chemical energy
2. Light reactions produce ATP and NADPH
3. Calvin cycle uses these to fix CO₂
4. Light, CO₂, temperature affect rate
5. One factor limits at any time
6. Chloroplast structure relates to function

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Practice Questions

1. Write equation for photosynthesis
2. Describe light-dependent reactions
3. Explain Calvin cycle stages
4. Graph photosynthesis rate vs light intensity
5. Identify limiting factors
6. Compare shade and sun plants

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Revision Tips

• Learn overall equation
• Understand two reaction stages
• Know limiting factors
• Practice rate graphs
• Relate structure to function
• Know optimum temperature