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Photosynthesis
Energy & LifePhotosynthesis is the process of capturing and transforming the energy of sunlight into chemical energy. (What type of organisms can make their own food?)
a. Autotrophs – organisms that can make their own food
b. Heterotrophs – organisms that obtain energy from the food they
consume
Energy & LifeChemical Energy and ATP
a. ATP – energy molecule used by cells (Fig. 8-2)
b. Energy is stored in the bonds between phosphate c. When these bonds are broken energy is
released
Energy & Life
Energy & LifeUsing Biochemical Energy
a. Active Transporthttp://www.dnatube.com/video/359/Active-Transport
b. Motor proteins move organelles throughout the cellhttp://www.youtube.com/watch?v=tL99pwdvmhU c. Synthesize various molecules
Photosynthesis: An Overview
I. Understand the significance of
Helmont’s, Priestley’s, and Ingenhousz’s experiments.
II. 6CO2 + 6H2 O C6 H12 O6 + O2
Photosynthesis: An Overview
III.Light and Pigments (Fig. 8-5)
A. Wavelength – distance between crests; shorter wavelengths have higher energy than longer wavelengths
Photosynthesis: An Overview
III.Light and Pigments (Fig. 8-5)
B. Photon – a particle of lightC. In photosynthetic organisms,
absorbed energy is used to make chemical energy (glucose)D. Photosynthetic pigment – molecule that absorbs light (color you see is the color being reflected)
1. chlorophyll a - primary pigment; converts light energy to chemical
energy
Photosynthesis: An Overview
III.Light and Pigments (Fig. 8-5)
D. Photosynthetic pigment (con’t)
1. chlorophyll a - (con’t)a. reflects green lightb. absorbs red & blue
lightc. normally hides other pigments
2. Chlorophyll b – accessory pigment; absorbs light
andtransfers the energy tochlorophyll a
Photosynthesis: An Overview
III.Light and Pigments (Fig. 8-5)
D. Photosynthetic pigment (con’t)
3. carotenes & xanthophylls –
accessory pigment; colors
can be seen in autumn when
chlorophylls start to break
downE. Absorption spectrum – the different
colors (wavelengths) of lightabsorbed by each pigment
Reactions of Photosynthesis
I. Inside a chloroplast – organelle in
which photosynthesis occurs
Reactions of Photosynthesis
I. Inside a chloroplast A. Thylakoids – flattened sacs of photosynthetic membranes; pigments and proteins are organized into photosystems in order for light energy to be captured & stored as chemical energyB. grana – stacks of thylakoidsC. stroma – region between grana
Reactions of Photosynthesis
II. Electron Carriers – molecules that can accept a pair of high-energy electrons and protons and transfer them to another molecule (NADP+)
Reactions of PhotosynthesisThere are two sets of reactions that take
place within the chloroplasts: The light dependent reactions & the Calvin Cycle (also know as the light independent or the dark cycle)
Reactions of Photosynthesis
III.Light Dependent ReactionsA. Takes place only in the presence of lightB. Occurs on membranes of thylakoidsC. Produces high energy compounds that are used in the dark reaction: ATP and NADPHD. Photosystem II
1. pigments absorb light energy and electrons are boosted to a higher
energy level
Reactions of Photosynthesis
III.Light Dependent ReactionsD. Photosystem II (con’t)
2. lost electrons are replaced by the splitting of H2O into 2 e- ,2 p+, and O2
a. electrons are picked up by NADP
b. protons (H+) are pumped into inner thylakoid space
Reactions of Photosynthesis
III.Light Dependent ReactionsE. Photosystem I
1. pigments use energy from light to re- energize the elctrons from photosystem II
2. produces NADPH which also powers the Calvin Cycle
Reactions of Photosynthesis
III.Light Dependent Reactionshttp://www.youtube.com/watch?v=Oi2_n2wbB9o
Reactions of Photosynthesis
IV.The Calvin Cycle – (light independent, dark reaction) – uses ATP and NADPH from the light dependent reactions to produce high energy sugars (Fig. 8-11)
A. Takes place with or without the presence of light as long as ATP and NADPH are availableB. Occurs in the stroma of chloroplastC. 6CO2 molecules enter the cycle from the atmosphere and combine with 6 five
carbon molecules
Reactions of Photosynthesis
IV.The Calvin Cycle (con’t)D. The resulting 12 three carbon molecules use the energy from ATP and NADPH to produce 12 high energy three carbon moleculesE. 2 of these molecules are used to synthesize sugar and other compoundsF. The remaining 10 molecules are used to produce more of the “starting” 6 carbon molecule of the cycle
The Calvin Cyclehttp://www.youtube.com/watch?v=_NIhg1qa_L0
Reactions of Photosynthesis
V. Factors Affecting PhotosynthesisA. Light intensity – as intensity increases the rate of photosynthesis increases (up to a point)B. Temperature – photosynthesis occurs rapidly at specific temp.; extreme temps. are damaging to enzymesC. H2O – decrease in water slows rate of photosynthesisD. Minerals – must be present in certain amounts