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22 Cards in this Set
- Front
- Back
Products of light dependent reactions |
ATP and NADPH |
|
Products of carbon fixation |
Glucose |
|
Light dependent reactions occur in the |
Thylakoid |
|
What transports electrons from PsII to the cytochrome complex |
Plastoquinone |
|
Resonance energy transfer |
Short wavelength (high e) to longer wavelength (short e) |
|
Are there electron transfers during resonance energy transfer? |
No |
|
What is involved in the conversion of light energy into chemical energy |
H20 C02 ATP NADPH |
|
ETC formula |
2H20+2NAD+ + 3ADP + 3Pi = 2NADPH + 2H + 3ATP + O2 |
|
Hydrogen moved frm the ______ into the ______ |
Lumen, stroma |
|
Plastoquinone |
Hydrophobic carrier from PSII to cytochrome complex |
|
Plastocyanin |
Hydrophilic protein that carries electrons frm the cytochrome complex to PSI |
|
The primary electron acceptor in PSI is |
Reduced |
|
At the end of the light cycle, NADP+ is |
Reduced into NADPH by two electrons |
|
Cyclic electron flow |
PS II is bypassed and no NADPH is produced. H+ is still pumped in by the cytochrome complex |
|
Wht happens in the carbon fixation reactions? |
Inorganic carbon to g3p to glucose |
|
How many molecules of CO2 are required for G3P? |
Three |
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How many turns of the Calvin cycle does it take to make one glucose molecule |
6. Carbon is 1 carbon, glucose has 6 carbon |
|
Where does carbon fixation occur? |
Stroma |
|
RuBP |
6-carbon molecule that accepts incoming Co2 |
|
Products of the Calvin cycle |
12 ATP, 12 NADP+, 2G3P, 6ADP |
|
Mitosis cycling activate |
Cycling dependent kinase which activate and trigger mitosis |
|
Maturation promoting factor |
Enzyme activation, nuclear membrane breakdown, chromosome condensation |