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PHOTOSYNTHESIS

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White light from the sun is composed of different colors of different wavelengths ... a Chlorophyll a that donates e ... RXNS cont d Lost e- from PSII is ... – PowerPoint PPT presentation

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Title: PHOTOSYNTHESIS


1
PHOTOSYNTHESIS
  • Converts light energy into chemical energy
    through a complex series of biochemical reactions
  • 6CO2 6H2O -gt C6H12O6 6O2
  • Photosynthesis occurs inside the chloroplasts
  • White light from the sun is composed of different
    colors of different wavelengths visible spectrum

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CHLOROPLAST STRUCTURE
  • Outer, double membrane
  • Inner Membrane system
  • THYLAKOIDS flattened sacs
  • GRANA stacks of thylakoids
  • Light harvesting pigments embedded in thylakoid
    membrane
  • Surrounding thylakoids, liquid STROMA

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  • Photosynthesis depends upon green pigment
    CHLOROPHYLL (absorbs light in the blue-violet and
    orange-red and reflects light in green region
  • Accessory pigments help harvest light energy

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LIGHT DEPENDENT RXNS
  • Visible light (traveling in photons, packets of
    energy) is changed into chemical energy
  • H2O is split into O2 and H
  • PS I and II absorb light energy
  • This light energy is transferred to reaction
    center, a Chlorophyll a that donates e- to
    electron carrier

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LIGHT DEP. RXNS contd
  • Lost e- from PSII is replaced by e- from H2O
  • At end of electron flow, electrons combine with
    NADP to form NADPH
  • As electrons flow along electron transport chain,
    protons build up inside thylakoids

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H3C H C1 "/, H C C H CHJ H CH3 H H H H H C
CH1 J,,/HJI I I I I I I I II! I /c, /C"", /c""'
/C, /C, /C""' /c, /C"", /c /c, /c" /CH1 H1C C C
C C C C C C C C /C" I I I I I I I I I I H3C
CHJ H1C, /C H H H H H CHJ H CH3 H C " H1
CH3 f,'-carotene
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LIGHT DEP. RXNS contd
  • These built up protons will diffuse down
    concentration gradient through ATP synthase
  • TAH-DAH!! ATP is made!!!
  • PRODUCTS
  • O2, ATP and NADPH!!!!

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CALVIN CYCLE
  • Pathway that produces organic compounds, using
    energy stored in ATP and NADPH from the light
    reactions
  • Occurs in the stroma
  • CO2 is fixed into organic compounds
  • RuBP (ribulose bisphosphate) is the 5 carbon
    sugar that CO2 is bound to by the enzyme rubisco

20
More CALVIN
  • The new 6 carbon molecule is immediately split
    into 2 3-carbon molecules (PGA)
  • PGA converted to PGAL by addition of the
    phosphate from ATP and the hydrogen from NADPH
  • ADP, NADP and phosphate are used again in the
    light reactions to form more ATP and NADPH

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  • To make one molecule of G3P, three turns of the
    cycle 3 CO2 molecules
  • CO2 is fixed to RuBP by rubisco produces
    unstable intermediate -gt 3-phosphoglycerate
  • RuBP is regenerated one per each trip through
    the cycle
  • Uses 9 ATP and 6 NADPH

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ALTERNATIVE PATHWAYS
  • Calvin cycle plants C3 because of PGAL that is
    formed (3 carbon)
  • Water loss through stomates is big problem
  • When air is hot and dry, stomates close to
    prevent water loss
  • BAD THING CO2 levels fall and O2 levels rise,
    resulting in carbon fixation inhibition

25
C4 PATHWAY
  • During hottest part of day, C4 plants partially
    close stomates
  • A special enzyme fixes CO2 into 4-carbon
    compounds that is stored in bundle sheath cells
    and can then enter the Calvin cycle
  • Corn, sugar cane and crabgrass

26
CAM Photosynthesis
  • Adaptation to hot, dry climates
  • Open stomates at night and close them during the
    day (minimizes water loss)
  • CO2 that enters at night is fixed into a variety
    of organic compounds and stored in vacuoles in
    morning, stomates close and CO2 is then released
    during the day and enters Calvin cycle
  • These plants grow very slowly cactuses,
    pineapples

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Rates of Photosynthesis
  • 4 limiting factors
  • Light intensity, temperature, CO2, O2
  • Active site of Rubisco can bind to O2 or CO2
    Photorespiration results in release of
    previously fixed CO2 that would otherwise remain
    in organic form

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RATES OF PHOTOSYNTHESIS
  • As light intensity increases, so does rate of
    photosynthesis
  • Levels off at a max rate, when all electrons are
    excited
  • Same thing for CO2 levels
  • Temperature increase, rate increases to a point
    then, enzymes denature and stomates close to
    prevent water loss, thus decreasing rate at high
    temperatures
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