nicotinamide adenine di nucleotide hydrogen pospgete
nadh2 is a cofactor that receives electrons from nad an another cofactor reducing itself and undergeos providing ATP to the cells
Nicotinamide Adenine Dinucleotide and it is and electrin carrier . it Carries H+ ions during cellular respiration
ATP (adenine triphosphate) and NADPH + hydrogen ion (H+) (NADPH2 for short). That's just the basics.
NADPH and ATP
ATP and NADPH2 are created in the light dependent stage and are needed for the transformation of GP into TP in the Calvin cycle.
During light dependent reaction photolysis of water takes place resulting in to the formation of energy rich compounds like NADPH2 and ATP from NADP and ADP. Oxygen is liberated as a bye-product.
Light-independant reactions(Dark Reactions) use Carbon Dioxide and other compounds to create Glucose.
NADPH2
NADPH2
beacause it's a fact!
at the stage of hydrolysis where the water is split into h2 and o .the oxygen gets liberated and hydrogen joins the NADP to form NADPH2.This NADPH2 is utilized for Calvin's cycle
ATP and NADPH2
NADPH2 and ATP are "used up" in the Calvin cycle (dark reaction.) ATP is converted into ADP and NADPH2 is converted into NADP.
All of the ATP & NADPH2
photosynthesis make food for life. ATP and NADPH2 will form in the light reaction.
inputs are light,chlorophyll,water,ADP,NADPH outputs are ATP,NADPH2,oxygen
light reactin produce atp and nadph2 .this two substance will use for the stap of dark reaction
ATP (adenine triphosphate) and NADPH + hydrogen ion (H+) (NADPH2 for short). That's just the basics.
The final product of one turn of Calvin cycle is 2 molecules of glyceraldehyde-3-phosphate (G3P) molecules. For each G3P synthesized, the cycle spends nine molecules of ATP and six molecules of NADPH2. The light reactions sustain the Calvin cycle by regenerating the ATP and NADPH2.