ap biology chapter 10: photosynthesis - life from light
TRANSCRIPT
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AP Biology
Chapter 10: Photosynthesis - Life from Light
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AP Biology
Energy needs of life All life needs a constant input of energy
Heterotrophs get their energy from “eating others” consumers of other organisms consume organic molecules
Autotrophs get their energy from “self” get their energy from sunlight use light energy to synthesize organic
molecules Chemoautotrophs
Harvest energy from oxidizing inorganic substances such as sulfur and ammonia
Unique to bacteria
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AP Biology 2005-2006
How are they connected?
glucose + oxygen carbon + water + energydioxide
C6H12O6 6O2 6CO2 6H2O ATP+ + +
Heterotrophs
+ water + energy glucose + oxygencarbondioxide
6CO2 6H2O C6H12O6 6O2light
energy + ++
Autotrophsmaking energy & organic molecules from light energy
making energy & organic molecules from ingesting organic molecules
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AP Biology
Energy cycle
Photosynthesis
Cellular Respiration
glucose O2H2OCO2
ATP
sun
The Great Circleof Life!
Where’s Mufasa?
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AP Biology
What does it mean to be a plant Need to…
collect light energy transform it into chemical energy
store light energy in a stable form to be moved around the plant
& also saved for a rainy day need to get building block atoms from
the environment C,H,O,N,P,S
produce all organic molecules needed for growth carbohydrates, proteins, lipids, nucleic acids
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AP Biology 2005-2006
Plant structure Obtaining raw materials
sunlight leaves = solar collectors
CO2
stomates = gas exchange regulation
Found under leaves
H2O uptake from roots
nutrients uptake from roots
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AP Biology
Structure of the Leaf Mesophyll
Tissue forming the interior of the leaf; site of most chlorophyll
Stomata Microscopic pores in
the leaf; allows for gas exchange
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AP Biology
Each Mesophyll Cell:
Has approx. 30-40 chloroplasts
Each chloroplast is equipped to carry out photosynthesis
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AP Biology
Chloroplasts double membrane stroma thylakoid sacs grana stacks
Chlorophyll & ETC in thylakoid membrane H+ gradient built up
within thylakoid sac
Plant structure
H+ H+
H+
H+
H+H+
H+ H+
H+H+
H+
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AP Biology
Structure of the Chloroplast Chlorophyll
Photosynthetic pigment found in the thylakoid
Thylakoid Membranous sacs filled
with fluid and chlorophyll – Site of the LIGHT REACTIONS
Granum = Stack of Thylakoids
Stroma Fluid portion of the
chloroplast; sight of the LIGHT INDEPENDENT REACTIONS (Calvin-Benson Cycle)
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AP Biology
Chloroplasts split water molecules Evidence
Discovery that the O2 given off by plants comes from H2O not CO2
Before the 1930’s the hypothesis was that photosynthesis occurred in two steps:
1. CO2 C + O2
2. C+ H2O CH2O
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AP Biology
Chloroplasts Split Water Molecules: Changing the Hypothesis Studying bacteria, C.B. van Neil challenged the
hypothesis:
H2S was used, not water
Proposed the following Rxn
CO2 + 2H2S CH2O +2S
Applied the same principle to plants
CO2 + 2H20 + light CH2O +O2
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AP Biology 2005-2006
Pigments of photosynthesis
chlorophyll & accessory pigments “photosystem” embedded in thylakoid
membrane structure function
Why does this structure make sense?
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AP Biology
Pigments of Photosynthesis Continued Leaves look green because
they absorb red and blue light, while transmitting and reflecting green light
Chlorophyll A Dominant pigment – absorbs
red/blue Chlorophyll B
Directs photons to chlorophyll A Carotenoids
Funnel energy from other wavelengths to Chlorophyll A (mostly orange/yellow)
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AP Biology
Light: Absorption Spectra Photosynthesis performs work only with
absorbed wavelengths of light chlorophyll a — the dominant pigment —
absorbs best in red & blue wavelengths & least in green
other pigments with different structures have different absorption spectra
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AP Biology
Photosynthesis overview Light reactions – Light Dependent Rxns
convert solar energy to chemical energy
ATP
Calvin cycle – Light Independent Rxns uses chemical
energy (NADPH & ATP) to reduce CO2 to build C6H12O6 (sugars)
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AP Biology
Photosystems Photosystems
collections of chlorophyll molecules
2 photosystems in thylakoid membrane act as light-gathering “antenna complex” Photosystem II
chlorophyll a P680 = absorbs 680nm
wavelength red light Photosystem I
chlorophyll b P700 = absorbs 700nm
wavelength red light
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AP Biology 2005-2006
Light reactions Similar to ETC in cellular respiration
membrane-bound proteins in organelle electron acceptors
NADP+ (Oxygen in cellular respiration) proton (H+)
gradient across inner membrane
ATP synthase enzyme
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AP Biology
ETC of Photosynthesis ETC produces from light energy
ATP & NADPH NADPH (stored energy) goes to Calvin cycle
PS II absorbs light excited electron passes from chlorophyll to
“primary electron acceptor” at the REACTION CENTER. splits H2O (Photolysis!!) O2 released to atmosphere ATP is produced for later use
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AP Biology 2005-2006
ETC of Photosynthesis Chloroplasts transform light
energy into chemical energy of ATP
use electron carrier NADPH
split H2O
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AP Biology 2005-2006
2 Photosystems Light reactions
elevate electrons in 2 steps (PS II & PS I) PS II generates
energy as ATP PS I generates
reducing power as NADPH
This shows Noncyclic photophosphorylation.
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AP Biology
ETC of Photosynthesis
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AP Biology
ETC of Photosynthesis
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AP Biology 2005-2006
Cyclic photophosphorylation If PS I can’t pass
electron to NADP, it cycles back to PS II & makes more ATP, but no NADPH coordinates light
reactions to Calvin cycle
Calvin cycle uses more ATP than NADPH
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AP Biology
Photosynthesis summary so far…Where did the energy come from?Where did the H2O come from?Where did the electrons come from?Where did the O2 come from?Where did the H+ come from?Where did the ATP come from?Where did the O2 go?What will the ATP be used for?What will the NADPH be used for?
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AP Biology 2005-2006
From Light reactions to Calvin cycle Calvin cycle
Chloroplast stroma
Need products of light reactions to drive synthesis reactions ATP NADPH
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AP Biology
From CO2 C6H12O6
CO2 has very little chemical energy fully oxidized
C6H12O6 contains a lot of chemical energy reduced endergonic
Reduction of CO2 C6H12O6 proceeds in many small uphill steps each catalyzed by specific enzyme using energy stored in ATP & NADPH
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AP Biology
PGALto make glucose
6Cunstable
intermediate
1C CO2
Calvin cycle
5CRuBP
3C2xPGA
6 ADP
6 ATP
3C2x
3C x2PGAL
6 NADP
6 NADPH
3 ADP
3 ATPRubisco
1. Carbon fixation
2. Reduction
3. Regeneration
ribulose bisphosphate
ribulose bisphosphatecarboxylase
sucrosecellulose
etc.
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AP Biology
Rubisco Enzyme which fixes carbon from
atmosphere ribulose bisphosphate carboxylase the most important enzyme in the world!
it makes life out of air! definitely the most abundant enzyme
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AP Biology
Calvin cycle PGAL
end product of Calvin cycle energy rich sugar 3 carbon compound “C3 photosynthesis”
PGAL important intermediatePGAL glucose carbohydrates
lipids
amino acids
nucleic acids
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AP Biology 2005-2006
Photosynthesis summary Light reactions
produced ATP produced NADPH consumed H2O produced O2 as byproduct
Calvin cycle consumed CO2
produced PGAL regenerated ADP regenerated NADP
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AP Biology 2005-2006
Summary of photosynthesis
Where did the CO2 come from? Where did the CO2 go? Where did the H2O come from? Where did the H2O go? Where did the energy come from? What’s the energy used for? What will the C6H12O6 be used for? Where did the O2 come from? Where will the O2 go? What else is involved that is not listed in this
equation?
6CO2 6H2O C6H12O6 6O2light
energy + ++
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AP Biology
Photosynthesis Drives Evolution Photosynthesis first evolved in
prokaryotic organisms Scientific evidence supports that
prokaryotic (bacterial) photosynthesis responsible for production of an oxygenated atmosphere
Prokaryotic photosynthetic pathways – foundation of eukaryotic photosynthesis
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AP Biology
Plant Photosynthesis Adaptations Due to Weather Conditions C3
Most common type C4
Minimize the cost of photorespiration by incorporating CO2 into four carbon compounds in mesophyll cells
4 carbon compounds exported to bundle sheath cells, where they release CO2 used in the Calvin cycle
CAM Open their stomata at night, incorporating CO2 into
organic acids During the day, the stomata close and the CO2 is
released from the organic acids for use in the Calvin cycle
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AP Biology
C4 Plants
CO2
Mesophyll cell
Bundle-sheathcell
Vein(vascular tissue)
Photosyntheticcells of C4 plantleaf
Stoma
Mesophyllcell
C4 leaf anatomy
PEP carboxylase
Oxaloacetate (4 C) PEP (3 C)
Malate (4 C)
ADP
ATP
Bundle-Sheathcell CO2
Pyruate (3 C)
CALVINCYCLE
Sugar
Vasculartissue
Figure 10.19
CO2
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AP Biology
C4 and CAM Plants