The oxidative phase of the pentose phosphate pathway
No
No. Cellular respiration uses NADH as an electron carrier. NADPH is used in photosynthesis.
ATP and NADPH.
nadph carries electrons to electron transport chain in cellular respiration to providing energy for the synthesis of atp
3 or 6
the two main types of cellular respiration are aerobic cellular respiration and anaerobic cellular respiration.
Glucose is the primary raw material / reactant required to generate pyruvate, which is then used in the Krebs cycle. In the process of cellular respiration, oxygen is introduced into the Krebs cycle to generate NADPH and ATP for energy for cells.
C6H12O6 (glucose) is relevant to both of these processes, because... Glucose is the end product of photosynthesis. After generating ATP and NADPH from the "light reactions" in the electron transport chain, both these molecules (ATP and NADPH) go on to power the Calvin Cycle, or "dark reaction". The end product of the Calvin Cycle is a molecule of G3P, which is made into glucose. Cellular respiration is essentially the "inverse" of photosynthesis- where photosynthesis makes glucose, cellular respiration breaks it down into ATP, so that it might be used by the cell. There is aerobic and anaerobic cellular respiration, which occur differently, but the common goal of the two processes is to break down glucose. Glycolysis precedes cellular respiration itself, which is the actual process of breaking down the glucose molecules into pyruvate.
NADPH or NADP plus stands for Nicotinamide Adenine Dinucleotide Phosphate. NADPH is created in the Stoma on the duration of light reactions accumulation.
well it is to produce NADPH and ATP
Yes, it's ultimate goal is to produce ATP (adenosine triphosphate), and its end product is a oxygen molecule which then combines with a free floating hydrogen proton to form H2O. The H2O is what is used to start the process of photosynthesis over again because that is where the electron particle comes from to aid in making NADPH (energy).
They are used in the Calvin-Benson cycle.