CO2
The carbon for the Calvin Cycle comes from carbon dioxide (CO2) in the atmosphere. This CO2 is converted into sugars through a series of enzymatic reactions during the Calvin Cycle in photosynthesis.
The Reactants for the Light-Independent Cycle(Calvin Cycle) are ATP, CO2, and NADPH
The Electron Transport Chain produces ATP. Extra Information: The ATP produced by the ETC is used in the Calvin Cycle. The Calvin Cycle requires CO2 and NADPH as well for it to work. The Calvin Cycle then produces Glucose (Sugars). The left over Glucose is then used and made as Starch.
The Calvin cycle
CO2
Carbon dioxide (CO2) enters the Calvin cycle from the atmosphere. This CO2 is used by plants during photosynthesis to produce glucose.
The carbon for the Calvin Cycle comes from carbon dioxide (CO2) in the atmosphere. This CO2 is converted into sugars through a series of enzymatic reactions during the Calvin Cycle in photosynthesis.
The Reactants for the Light-Independent Cycle(Calvin Cycle) are ATP, CO2, and NADPH
ATP, NADPH, and CO2
The Electron Transport Chain produces ATP. Extra Information: The ATP produced by the ETC is used in the Calvin Cycle. The Calvin Cycle requires CO2 and NADPH as well for it to work. The Calvin Cycle then produces Glucose (Sugars). The left over Glucose is then used and made as Starch.
The Calvin cycle makes direct use of carbon dioxide (CO2) to make organic compounds, primarily glucose. This process occurs in the stroma of chloroplasts and requires ATP and NADPH generated from the light reactions of photosynthesis.
Yes, the Calvin cycle requires energy in the form of ATP and NADPH, which are produced during the light-dependent reactions of photosynthesis. These energy molecules are used to drive the chemical reactions in the Calvin cycle that ultimately result in the synthesis of glucose.
co2
The Calvin cycle
Yes, the Calvin cycle requires RuBP (ribulose-1,5-bisphosphate) as it is the starting molecule for carbon fixation. RuBP reacts with CO2 to form an unstable intermediate that eventually leads to the synthesis of sugars such as glucose.
CO2