The Calvin cycyle creates the complex molecule glyceraldehyde 3-phosphate.
This is the end product of the light-driven process of photosynthesis, and can be used in the production of sugars and starches.
No, the main products of the Calvin cycle are three-carbon molecules (3-phosphoglycerate) that are eventually used to regenerate RuBP (ribulose-1,5-bisphosphate) to continue the cycle. Carbon dioxide is actually used in the Calvin cycle to form these three-carbon molecules.
Sugar (glucose) is the main product of the dark reactions. ADP and NADP+ are also made in the process.
They are called LIGHTS
The chloroplast is the organelle that participates in the Calvin cycle. Within the chloroplast, the stroma is where the Calvin cycle takes place.
NADPH and ATP
No, the main products of the Calvin cycle are three-carbon molecules (3-phosphoglycerate) that are eventually used to regenerate RuBP (ribulose-1,5-bisphosphate) to continue the cycle. Carbon dioxide is actually used in the Calvin cycle to form these three-carbon molecules.
Sugar (glucose) is the main product of the dark reactions. ADP and NADP+ are also made in the process.
The products of the Calvin cycle are 2 glyceraldehyde-3-phosphate (G3P) molecules, 3 ADP, and 2 NADP+ -By: Isaiah_the_nerd
The main processes in the in dependant reactions are collectively called the Calvin Cycle.
ADP and NADP+
The products of the Calvin cycle are the three carbon sugar phosphate molecules or the triose phosphates (G3P). The products formed after a single turn of the Calvin cycle are 3 ADP, 2 glyceraldehyde-3-phosphate (G3P) molecules, and 2 NADP+.
Organic compounds such as glucose, starch, sucrose, and cellulose can be made from the products of the Calvin cycle. These compounds are essential for plant growth and serve as energy sources and structural components in plants.
NADPH and ATP
ATP and NADPH
Free energy and light.
The products of the light-dependent reactions (photosynthesis) required by the Calvin cycle during respiration are ATP and NADPH. These molecules provide the energy and reducing power needed for the Calvin cycle to convert carbon dioxide into glucose and other organic molecules.
the calvin cycle