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.
Six molecules of G3P are required to produce one molecule of glucose during the Calvin cycle.
Six turns of the Calvin cycle are required to produce a molecule of glucose.
Two repeats of the Calvin Cycle are required to produce one glucose molecule.
Six turns of the Calvin Cycle are required to produce one glucose molecule.
Six turns of the Calvin Cycle are required to produce one molecule of glucose.
Six molecules of G3P are required to produce one molecule of glucose during the Calvin cycle.
Six turns of the Calvin cycle are required to produce a molecule of glucose.
Two repeats of the Calvin Cycle are required to produce one glucose molecule.
Six turns of the Calvin Cycle are required to produce one glucose molecule.
Six turns of the Calvin Cycle are required to produce one molecule of glucose.
Six turns of the Calvin Cycle are required to produce one molecule of glucose.
Three turns of the Calvin Cycle are required to produce a G3P molecule that can be utilized in the synthesis of glucose.
During the Calvin cycle, three molecules of G3P are required to regenerate one molecule of RuBP.
The synthesis of one glucose molecule requires two turns of the Calvin cycle. This process involves a series of reactions that convert carbon dioxide into glucose using the enzyme RuBisCO and other molecules in the pathway.
glucose
None. The Calvin cycle uses ATP and results in ADP.
Six molecules of RuBP (ribulose-1,5-bisphosphate) are needed to produce one molecule of glucose through the Calvin cycle in photosynthesis.