the answer is RuBisCo
Carbon dioxide is the molecule from the air that is broken down during the Calvin cycle in photosynthesis to produce glucose.
Carbon dioxide
During the Calvin cycle, one molecule of 3-phosphoglycerate (3-PGA) is produced for every carbon dioxide molecule fixed. Thus, the number of 3-PGA molecules present during the Calvin cycle depends on the number of carbon dioxide molecules fixed in the process.
six
Carbon monoxide is CO and carbon dioxide is CO2.
In the Calvin Cycle, the molecule that is reduced is carbon dioxide (CO2).
Carbon dioxide is the molecule from the air that is broken down during the Calvin cycle in photosynthesis to produce glucose.
Carbon dioxide
Carbon dioxide
During the Calvin cycle, 6 molecules of carbon dioxide (CO2) are needed to produce one molecule of glucose because glucose contains 6 carbon atoms. Each carbon dioxide molecule contributes one carbon atom to the glucose molecule through a series of chemical reactions in the Calvin cycle.
During the Calvin cycle, carbon dioxide (CO2) is fixed to produce sugars.
RuBP stands for ribulose-1,5-bisphosphate, which is a molecule involved in the Calvin cycle of photosynthesis. It is a 5-carbon sugar that plays a key role in capturing carbon dioxide from the atmosphere to be converted into glucose.
During the Calvin cycle, one molecule of 3-phosphoglycerate (3-PGA) is produced for every carbon dioxide molecule fixed. Thus, the number of 3-PGA molecules present during the Calvin cycle depends on the number of carbon dioxide molecules fixed in the process.
six
Carbon monoxide is CO and carbon dioxide is CO2.
The reactant in the Calvin cycle is carbon dioxide (CO2) from the atmosphere. This carbon dioxide is fixed and converted into organic molecules, such as glucose, through a series of enzymatic reactions in the Calvin cycle.
In each complete run of the Calvin Cycle, six molecules of carbon dioxide eventually produce one molecule of glucose (C6H12O6). In each "turn" of the cycle, the 5-carbon molecule ribulose biphosphate (RuBP) bonds with an incoming carbon dioxide molecule to create a 6-carbon molecule. This 6-carbon molecule breaks into two 3-carbon molecules of phosphoglycerate (PGA). The energy stored in ATP and NADPH is used to attach phosphate groups to the PGA. Eventually, there are 12 molecules of glyceraldehyde phosphate (also known as phosphoglyceraldehyde or PGAL). Two of these molecules are removed from the cycle to make one glucose molecule. The remaining PGAL molecules use ATP energy to reform six RuBP molecules, and thus start the cycle again. Remember that a different reaction-specific enzyme catalyzes each step in this process. Im pretty sure its glucose Check with a teacher to be more sure!