Bio- photosynthesis/ cellular respiration

products of light reactions

oxygen, ATP, and NADPH

PS2 wavelength

around 680

PS1 wavelength

around 700

how NADP+ turns into NADPH

through accepting the excited electron from PS1

reactants of the light reactions 

water, sunlight, NADP+, ADP, 3P

how ATP synthase turns ADP into ATP

adding an inorganic phosphate

number of membranes on a chloroplast 

2 

granum

stack of thylakoids

stroma

liquid inside of chloroplasts

number of chloroplasts in a plant cell

30-40 

calvin cycle takes place in 

stroma 

phase 1 of Calvin cycle

carbon fixation

catalyzes carbon fixation

RuBisCo

what RuBisCo does in phase 1 

joins CO2 and RuBP to create two molecules of 3-phosphoglycerate 

phase 2 of Calvin cycle

reduction

phase 2 happenings

each molecule of 3-phosphoglycerate receives a phosphate from ATP and is reduced by NADPH, becoming G3P

possibilities of G3P molecules 

leave the cycle, goes back to generate more RuBP 

required to generate one G3P

9 ATP and 6 NADPH

high hydrogen gradient inside the thylakoid

how ATP synthase energizes the pump 

NADP+ reductase

combines NADP+ and H+ to make NADPH

three stages of cellular respiration 

glycolysis, krebs cycle, oxidative phosphorylation 

where glycolysis occurs

cytoplasm

parts of CR that are anaerobic

glycolysis

number of steps in glycolysis 

10 

preparatory phase

first five glycolysis steps

payoff phase

last five steps of glycolysis

number of ATPs that each glucose earns in glycolysis 

2

krebs cycle takes place

inner membrane space

ETC located

inner membrane

number of ATP produced in all of cellular respiration 

38