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

2

3

4

5

6

7

8 CHLOROPLAST STRUCTUREOuter, double membrane Inner Membrane system: THYLAKOIDS – flattened sacs GRANA – stacks of thylakoids Light harvesting pigments embedded in thylakoid membrane Surrounding thylakoids, liquid: STROMA

9 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

10

11

12 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

13 LIGHT DEP. RXNS cont’d Lost e- from PSII is replaced by e- from H2OAt end of electron flow, electrons combine with NADP+ to form NADPH As electrons flow along electron transport chain, protons build up inside thylakoids

14 f,'-carotene H1 CH3 C " H1C, /C H H H H H CHJ H CH3 H I I I I I I I I I I H3C CHJ H1C C C C C C C C C C C /C" /c, /C"", /c""' /C, /C, /C""' /c, /C"", /c~ /c, /c" /CH1 J,,/HJI I I I I I I I II! I H C C H CHJ H CH3 H H H H H C CH1 "/, C1 H3C H

15

16 LIGHT DEP. RXNS cont’d These built up protons will diffuse down concentration gradient through ATP synthase TAH-DAH!! ATP is made!!! PRODUCTS: O2, ATP and NADPH!!!!

17

18

19 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

21 To make one molecule of G3P, three turns of the cycle + 3 CO2 moleculesCO2 is fixed to RuBP by rubisco – produces unstable intermediate -> 3-phosphoglycerate RuBP is regenerated – one per each trip through the cycle Uses 9 ATP and 6 NADPH

22

23

24 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 climatesOpen 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

27 Rates of Photosynthesis4 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

28 RATES OF PHOTOSYNTHESISAs 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