Chlorophyll and Other Pigments PDF

Summary

This document explains chlorophyll and other pigments found in plants, their properties, locations, and functions in photosynthesis. It also discusses the roles of these pigments in plant health and human health benefits.

Full Transcript

CHLOROPHYLL and
other Pigments
TERMS TO REMEMBER
PHOTOSYNTHESIS Types of Pigments in Plants
→ Definition: Process capturing light 1. Chlorophylls
energy to convert it into sugars → Role: Essential for photosynthesis
→ Process: Begins with light absorption → reflects green light and absorbs violet-
by organic pigments blue and orange-red light
Types of Chlorophylls
BIOLOGICAL PIGMENTS (Biochromes) → Chlorophyll a & b: Primary
→ Definition: Intense-colored chemical photosynthetic pigments
compounds used for coloration Chlorophyll a Chlorophyll b
→ Properties: Insoluble in water;
appear as ground particles in solid Contains methyl group in Contains an aldehyde
form the third position of its group in the third
chlorin ring position of its chlorin
→ Location: Found in plants and ring
animals, within plastids
Principal pigment that Accessory pigments

PLASTID captures sunlight for that collects

→ Definition: Double-membrane
photosynthesis sunlight and passes it
into Chlorophyll a
organelle in plants and algae
→ Function: Manufactures and stores
Absorbs violet- blue and Absorbs orange- red
food orange- red light from light from the spectrum
the spectrum
TYPES OF PLASTIDS
→ Chloroplasts: Contain chlorophyll Reflects blue green in Reflects yellow green
color in color
→ Chromoplasts: Pigments from aging
chloroplasts
Found in all plants, algae, Found in all plants and
→ Gerontoplasts: Aged chromoplasts and cyanobacteria green algae
→ Leucoplasts: In roots and stems;
store starch, proteins, lipids
 → Chlorophyll c: Found in certain → Colors: Yellow, red, blue, purple
photosynthetic Chromista and some → Role in Plants: Provide visual cues
marine algae for pollinators and seed dispersers;
→ Chlorophyll d: Exclusive to red algae contribute to the colors of ripening
→ Chlorophyll e: Very rare; found in fruit
golden algae → Properties: Antioxidant; used as
natural dyes
2. Carotenoids → Health Benefits for Humans:
→ Common Types: Carotenes and May help lower cholesterol levels
xanthophylls (e.g., lycopene) Commonly used as dietary
→ Location: In chloroplasts and supplements in food products
chromoplasts of green plants 4. Betalains
(masked by chlorophyll) and in → Common Types: Betacyanins and
vegetables like carrots and mangoes betaxanthins
→ Colors: Oranges, reds, yellows, pinks → Location: In the cell vacuole of
→ Function in Plants: Capture light flowers and fungi
energy and transfer it to chlorophyll → Colors: Red to violet, also yellow to
a; protect the photosynthetic system orange
from UV damage → Role in Plants: Attract animals to
→ Antioxidant: Helps neutralize free flowers and fruits
radicals → Uses: Commonly used as natural
→ Health Benefits for Humans: food colorants
Source of vitamin A
Promotes good eyesight CHLOROPLAST
Regulates cell growth and division 1. Outer and Inner Membrane
Supports white blood cell production - Outer and inner covering of the
Assists in bone remodeling chloroplast.
2. Stroma
3. Flavonoids - Space between the thylakoid and
→ Common Types: Anthocyanins, inner membrane
aurones, chalcones, flavonols, and - Site of the Calvin cycle phase of
proanthocyanidins photosynthesis
→ Location: In the cell vacuole of 3. Stroma lamellae
common plants like berries, - Skeleton of the chloroplast
eggplant, and citrus fruits; also - Separate stacks of thylakoid
present in teas, wine, and chocolate
 4. Granum - Role in Photosynthesis: Site of
- Stacks of thylakoid the light-dependent phase
5. Thylakoid
- Function: Contains the
photosystems of the chloroplast,
essential for photosynthesis
- Composition: Made up of
pigments (chlorophyll and
carotenoids) and proteins that
absorb light energy

1. Photosynthesis, begins with the absorption of light energy by a specialized form of organic molecules
called chlorophyll.
2. Chlorophylls, stimulates photosynthesis by reflecting green light and absorbed violet - blue and
orange - red light.
3. Carotenoids protect the photosynthetic system from the damaging effects of UV light.
4. The pigment that is found in vacuoles that plays a role in the colors of ripening fruit is called
flavonoids
5. The part of the chloroplast that contains the photosystem where photosynthesis actually happens is
called thylakoid.

Patterns of Electron

Flow Through Light

Reaction
PHASES OF PHOTOSYNTHESIS
 PHOTOSYNTHESIS EQUATION

The Light Reaction Phase (Light-Dependent Reactions)
Capture the energy in sunlight and convert it to chemical energy in the form of ATP and
NADPH using photosystems, electron transport chains and chemiosmosis.
 Names of the protein chain/electron chain

Plastoquinone - Pq
cytochrome complex - Cyt
Plastocyanin - Pc
Ferredoxin – Fd

Stages of Light Reaction
Light absorption
- A process by which light is absorbed by chlorophyll that will excite its electrons.
Oxygen production
- When water is split oxygen, H ion, and electrons will be produced.
Electron transport
- The movement of excited electrons through a series of proteins/chains to build a
proton/ H ion gradient.
Chemiosmotic ATP synthesis
- The process that produces ATP by enzyme ATP synthase because of the difference in
the electrochemical gradient across the thylakoid membrane.