ap biology photosynthesis chapter 10 light reactions 20cd/0076.jpg
TRANSCRIPT
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AP BIOLOGYPHOTOSYNTHESIS
Chapter 10Light Reactions
http://www.science.siu.edu/plant-biology/PLB117/JPEGs%20CD/0076.JPG
http://vilenski.org/science/safari/cellstructure/chloroplasts.html
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Sunlight is made upof many different_______________of light
Your eyes “see”different wavelengths asdifferent ___________
http://www.simontucket.com/_Portfolio/PortLarge/L_Il_Prism.jpg
wavelengths
colors
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Visible light is part of electromagnetic spectrum
ROYGBIV
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pigments
By: VanderWal
Plants gather the sun’s energy with light absorbing molecules called _______________.
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The main energy absorbing moleculein green plants is__________________
http://fig.cox.miami.edu/Faculty/Dana/chlorophyll.jpg
CHLOROPHYLL a
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Plant pigment molecules are amphiphatic, meaning they have a hydrophobic domain (for membrane insertion) and
a hydrophillic domain facing the “watery” cytoplasm.
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Chlorophyll a is UNIVERSAL for oxygen evolving, photosynthetic organisms.
The differences in the the types of chlorophylls are minute, yet these structural changes affect the energy of the ejected electron (from the via the magnesium metal atom).
Evidence for evolutionary relationship between all oxygen-evolving organisms lies in their sharing of the chlorophyll a molecule.
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The conjugated double bonds in the “ring” structure of the The conjugated double bonds in the “ring” structure of the pigment molecules allow the electron clouds to shift or pigment molecules allow the electron clouds to shift or
“resonate” when exposed to light. This excitation by light is “resonate” when exposed to light. This excitation by light is known as the “Photoelectric Effect.”known as the “Photoelectric Effect.”
– Photoelectric effect
– http://phet.colorado.edu/en/simulation/photoelectric
– Click Run Now
– As light strikes surface of metal (or atoms in the pigment), electrons are ejected at certain energy at specific wavelengths.
– These electrons that are lost by the chlorphyll molecule are replaced by the hydrolysis of water by an adjacent enzyme complex.
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Species are classified by their different accessory pigments
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Chromatography as a evolutionary diagnostic tool.
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CAROTENOID PIGMENTS appear ORANGE, RED, and YELLOW
Carotene appears orange
Xanthophyll appears yellow
http://www.rnzih.org.nz/images/gardenimages/carrots_d.jpg
http://www.webexhibits.org/causesofcolor/images/content/7C_chlorophyll_in_leaves.jpg
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Pigments of photosynthesis
• Chlorophyll & other pigments– embedded in thylakoid membrane– arranged in a “photosystem”– structure-function relationship
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Light: absorption spectraPhotosynthesis gets energy by absorbing
wavelengths of light– chlorophyll a
• absorbs best in red & blue wavelengths & least in green
– other pigments with different structures absorb light of different wavelengths
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WHY ARE PLANTS GREEN?
We “see” reflected lightLight wavelengths that are reflectedbounce back to your eyes . . . so leaves “LOOK” green.
Image modified from: http://www.visibledreams.net/Web/color/color_3.html
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WHY DON’T WE SEE THE OTHER PIGMENTS?
Carotenoids are usually hidden by the presence of chlorophyll
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In the fall chlorophyll production shuts down and other pigments “show”
http://sps.k12.ar.us/massengale/ecology_notes_bi.htm
http://www.litzsinger.org/weblog/archives/email%20AutumnTrees5%20LREC%20102605.jpg
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PHOTOSYNTHESIS HAPPENS IN CHLOROPLASTS
= sac-like
photosynthetic = stack of thylakoids
membranes
inside chloroplast
THYLAKOIDSGRANUM (pl. grana)
Image from BIOLOGY by Miller and Levine; Prentice Hall Publishing©2006
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SPACESTHYLAKOIDSPACE(lumen)
STROMA
cytoplasm
http://www.science.siu.edu/plant-biology/PLB117/JPEGs%20CD/0076.JPG
Gel-filled spaceInside the thylakoid
sac
Gel-filled space inside
chloroplast surrounding
thylakoid sac
Gel-filled space OUTSIDE chloroplast but inside the cell membrane
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PHOTOSYNTHESIS OVERVIEW
Pearson Education Inc; Publishing as Prentice Hall
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Phosphate groups
Ribose
Adenine
LIGHT DEPENDENT REACTIONS CHARGE UP ENERGY CARRIER = _____ATP
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P
i
ADP
Energy for cellular work(Energy- consuming)
Energy from catabolism(Energy- yielding)
ATP
+
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High energy electron carrier = _____________NADP+
NADP+ + 2e- + H+ → NADPH
NICOTINAMIDE ADENINE DINUCLEOTIDE PHOSPHATE
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Photosynthesis
• Light reactions– light-dependent reactions– energy production reactions
• convert solar energy to chemical energy• Make ATP & NADPH
• Calvin cycle– light-independent reactions– sugar production reactions
• use chemical energy (ATP & NADPH) to reduce CO2 & synthesize C6H12O6
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Photosystems of photosynthesis
2 photosystems in thylakoid membrane– Both have a REACTION CENTER
• CHLOROPHYLL a molecules • PRIMARY ELECTRON ACCEPTOR
– Surrounded by light-gathering “ANTENNA COMPLEX” • Accessory pigments (chlorophyll b, carotenoids)
– Collect light energy and pass it on to chlorophyll a
– Photosystem II• P680 = absorbs 680nm
wavelength red light
– Photosystem I• P700 = absorbs 700nm
wavelength red light
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ETC of PhotosynthesisPhotosystem II
Photosystem I
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ELECTRON TRANSPORT CHAIN
• Plastoquinone• Cytochrome• Plastocyanin• Ferredoxin
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Light Dependent reactionsElectron Transport Chain
– membrane-bound proteins in organelle– electron acceptors
• NADPH
– proton (H+) gradient across inner membrane• Where’s the double
membrane?
– ATP synthase enzyme
H+H+
H+
H+H+H+
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ETC of PhotosynthesisChloroplasts transform light
energy into chemical energy of ATP
use electron carrier NADPH
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LIGHT DEPENDENT REACTIONSETC produces from light energy
– ATP & NADPH• go to Calvin cycle
PS II absorbs light– excited electron passes from chlorophyll to
“primary electron acceptor”– need to replace electron in chlorophyll– enzyme extracts electrons from H2O &
supplies them to chlorophyll• splits H2O• O combines with another O to form O2
• O2 released to atmosphere• and we breathe easier!
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ETC of Photosynthesis
H+
H+
13
4
H+
ADP + Pi
H+H+
H+
H+ H+
H+H+H+
ATP
to theCalvin Cycle
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12
H+
H+
3
4
H+
ADP + Pi
H+H+
H+
H+ H+
H+H+H+
ATP
ETC of Photosynthesis
to theCalvin Cycle
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ETC of Photosynthesis
6
5
$$ in the bank…reducing power
to theCalvin Cycle
electron carrier
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ETC of Photosynthesis
split H2O
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MAKING ATP
• moves the electrons • runs the pump• pumps the protons• forms the gradient• drives the flow of protons
through ATP synthase
• attaches Pi to ADP
• forms the ATP
H+
ADP + Pi
H+H+
H+
H+ H+
H+H+
H+
ATP
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Noncyclic Photophosphorylation
• Light reactions elevate electrons in 2 steps (PS II & PS I) – PS II generates
energy as ATP– PS I generates
reducing power as NADPH
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Cyclic photophosphorylationPS I doesn’t pass
electron to NADP…it cycles back to ETC & makes more ATP, but no NADPH– coordinates light
reactions to Calvin cycle– Important in maintaining
proportion of ATP &NADPH for Calvin
– Calvin cycle uses more ATP than NADPH
X
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Photophosphorylation
noncyclicphotophosphorylation
cyclicphotophosphorylation
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6CO2 6H2O C6H12O6 6O2light
energy →+ ++
Experimental evidence
• Where did the O2 come from?
– radioactive tracer = O18
6CO2 6H2O C6H12O6 6O2light
energy →+ ++
Experiment 1
6CO2 6H2O C6H12O6 6O2light
energy →+ ++
Experiment 2
Proved O2 came from H2O not CO2 = plants split H2O
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LIGHT DEPENDENT REACTIONRequires ______________Molecules embedded in
________________________Made up of __________________ connected by ______________________ & ___________________Uses light energy to change
ADP + P → _______NADP+ + 2e- + H + → _________
Breaks apart ______ molecules and releases _____________
LIGHT
ATP
THYLAKOID membranes
PHOTOSYSTEMS II & I ELECTRON TRANSPORT CHAIN
NADPH
H20oxygen
ATP SYNTHASE
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LIGHT REACTIONS summary Where did the energy come from?
Where did the electrons come from?
Where did the H2O come from?
Where did the O2 come from?
Where did the O2 go?
sunlight
From chlorophyll; replaced by H2O
In through roots
Made when water splits
Out through stomata
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LIGHT REACTIONS summary Where did the H+ come from?
Where did the ATP come from?
What will the ATP be used for?
Where did the NADPH come from?
What will the NADPH be used for?
…stay tuned for the Calvin cycle
Split off of water
Produced by ATP synthase during light rxns
Make sugar in Calvin cycle
Receives e-’s at end of ETC
Make sugar in Calvin cycle
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PHOTOSYNTHESIS
Light-Dependent Reaction
Light-IndependentReactions
CALVIN CYCLE
Light & Water
Oxygen
ATP
NADPH
Carbon Dioxide (CH2O)n
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CALVIN CYCLE
http://www.science.siu.edu/plant-biology/PLB117/JPEGs%20CD/0076.JPG
http://vilenski.org/science/safari/cellstructure/chloroplasts.html
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Calvin Cycle
See Calvin cycleanimation
**
*
*Molecules you
need to know
X 2
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CALVIN CYCLE MOLECULES5 carbon CO2 acceptor that combines with
CO2 in the first step of the Calvin cycle________________________________
Enzyme that catalyzes the addition of CO2 to RuBP
________________________
3 carbon sugar produced during the Calvin cycle that can be used to build glucose and other organic molecules
______________________________
Ribulose bisphosphate (RuBP)
RuBP carboxylase (RUBISCO)
Glyceraldehyde-3-phosphate (G3P)
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CALVIN CYCLE (also called _________________________)
____________ require ____________
Happens in _________ between thylakoidsNADPH donates _______________
ATP donates _________________CO2 donates ______________
to make __________________________
LIGHT
LIGHT INDEPENDENT
ENERGY
STROMAHydrogen ions + electrons
Carbon & oxygenglyceraldehyde-3-phosphate (G3P)
http://www.estrellamountain.edu/faculty/farabee/biobk/BioBookCHEM2.html
DOES NOT
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To make one glucose moleculeC6H12O6
the Calvin cycle uses
_____ molecules of CO2
_____ molecules of ATP
_____ molecules of NADPH
6
18
12
Campbell concept check 10.3
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CALVIN CYCLE summary
Where does the C in G3P come from?
Where does the H in G3P come from?
Where does the O in G3P come from?
Where does the ADP & NADP+ go?
Where does the G3P go?
CO2
From H2O via NADPH
CO2
Back to light reaction to recharge
Used to make glucose and other organic molecules
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STOMA (pl. STOMATA)
http://www.cbu.edu/~seisen/Stomata.jpg
GUARD CELLS
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PROBLEMS ON HOT DRY DAYS• If stomata are open to receive CO2 . . .
results in water loss
• On hot, dry days if plant shuts stomata to conserve water . . . photosynthesis slows
http://www.ipm.iastate.edu/ipm/icm/files/images/spider-mite-field.jpg
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____ plants (Ex: rice, wheat, soybeans)(1st product of carbon fixation has 3 C’s- 3PG)
On hot, dry days when plant shuts stomata plant switches to ______________________Rubisco adds O2 to Calvin cycle instead of CO2
Product broken down by mitochondria/peroxisomes to release CO2
COUNTERPRODUCTIVE:Makes NO ATP Makes NO sugarUses ATPDecreases photosynthesis by siphoning
molecules from Calvin cycle
PHOTORESPIRATION
C3
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ALTERNATIVE METHODS of CARBON FIXATION
• ______ plants(Ex: corn & sugarcane
• ______ Crassulacean acid metabolism(Ex: succulents, cactus, pineapple,)
WAYS TO AVOID DECREASE IN PHOTOSYNTHESIS DUE TO PHOTORESPIRATION
C4
CAM
SEE ANIMATION
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CALVIN CYCLE found in BUNDLE SHEATH CELLS in C4 plants
*
________________________adds CO2 to make a 4 carbonmolecule before enteringCalvin Cycle
PEP CARBOXYLASE
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5656
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Process of using H+ gradient to generate ATP
= ________________________
(Can refer to ATP made in mitochondria too)
Process of creating ATP using a Proton gradient created by the
energy gathered from sunlight.
= ________________________
Process that consumes oxygen, releases CO2, generates no
ATP, and decreases photosynthetic output; generally occurs
on hot, dry, bright days, when stomata close and the oxygen
concentration in the leaf exceeds that of carbon dioxide
= ___________________________________
chemiosmosis
photophosphorylation
photorespiration