9 ATPs and 6 NADPH per 3 CO2 to make 6 G3P which could be used for glucose (C6H12O6)
NADPH and ATP are produced by the light reactions. The ATP is a high energy molecule produced by photophosphorylation while the NADPH is produced at the end of the electron transport chain.
ATP and NADH2
The energy-carrying end products of the light harvesting reactions are ATP and NADPH. These molecules serve as the main sources of chemical energy for the subsequent dark reactions of photosynthesis.
Oxygen is produced as a by-product while energy carriers, NADPH and ATP, are produced for the next step in the process, the Calvin cycle.
36 ATP molecules can be produced by 1 molecule of glucose. These 36 ATP molecules will complete cellular respiration.
ATP
NADPH and ATP are produced by the light reactions. The ATP is a high energy molecule produced by photophosphorylation while the NADPH is produced at the end of the electron transport chain.
NADPH is the other molecule produced in the second stage of photosynthesis, known as the light-dependent reactions. Both ATP and NADPH are essential for the production of sugars in the Calvin cycle, which is the third stage of photosynthesis.
NADPH
NADPH and ATP are produced by the light reactions. The ATP is a high energy molecule produced by photophosphorylation while the NADPH is produced at the end of the electron transport chain.
ATP and NADH2
The energy-carrying end products of the light harvesting reactions are ATP and NADPH. These molecules serve as the main sources of chemical energy for the subsequent dark reactions of photosynthesis.
The molecule that carries electrons from the light-dependent reactions to the Calvin cycle is called NADPH (nicotinamide adenine dinucleotide phosphate). NADPH is produced during the light-dependent reactions in photosynthesis and then used in the Calvin cycle to help fix carbon dioxide into sugars.
No, NADPH (nicotinamide adenine dinucleotide phosphate) is a molecule involved in energy metabolism and reducing reactions, while ATP (adenosine triphosphate) is the primary source of energy for cellular processes. They serve different functions in the cell.
The answer to this question is NADPH. An enzyme then stores this excited particle in an NADPH molecule. NADPH is the abbreviated name for Nicotinamide Adenine Dinucleotide Phosphate.
Oxygen is produced as a by-product while energy carriers, NADPH and ATP, are produced for the next step in the process, the Calvin cycle.
One turn of the Calvin cycle requires 3 ATP with an addition of 2 NADPH. However, to produce 1 glucose molecule requires 6 turns of the Calvin cycle. 3 ATP per turn X 6 turns = 18 ATP Total 2 NADPH per turn X 6 turns = 12 NADPH Total Reference: Biochemistry, A short course by Tymoczko, Berg, Stryer. Page 354