Sugar (glucose) is the main product of the dark reactions. ADP and NADP+ are also made in the process.
During light dependent reaction photolysis of water takes place resulting in to the formation of energy rich compounds like NADPH2 and ATP from NADP and ADP. Oxygen is liberated as a bye-product.
NADP+
light, carbon dioxide and water. Formula: 6H2O + 6CO2 + light → C6H12O6 (glucose) + 6O2
Darkness means no reduction. NADP is in light reactions - DPIP is electron acceptor susbstitute for NADP... if NADP does not react in darkness (plants dont react at night and do not undergo photosynthesis) then neither should DPIP
Glucose, NADP and ADP
Sugar (glucose) is the main product of the dark reactions. ADP and NADP+ are also made in the process.
ATP, NADP, and oxygen
During light dependent reaction photolysis of water takes place resulting in to the formation of energy rich compounds like NADPH2 and ATP from NADP and ADP. Oxygen is liberated as a bye-product.
Glucose, NADP and ADP
NADP+
light, carbon dioxide and water. Formula: 6H2O + 6CO2 + light → C6H12O6 (glucose) + 6O2
Darkness means no reduction. NADP is in light reactions - DPIP is electron acceptor susbstitute for NADP... if NADP does not react in darkness (plants dont react at night and do not undergo photosynthesis) then neither should DPIP
# photosynthesis 2. Water is the source of hydrogenduring the light dependent reaction of photosynthesis. Water is split into hydrogen and oxygen. The oxygen is released into the atmosphere and the hydrogen is transferred to a carrier molecule called NADP, to produce NADPH. The NADPH is then used in the light independent reaction to reduce carbon dioxide to carbohydrate. See my answer to this question on WikiAnswers: What connects the light dependent reaction to the light independent reaction?
Oxygen, Water, ATP, and NADPH are products of the light reactions in photosynthesis. The Calvin Cycle is what produces the products: Carbon dioxide, Sugar, NADP+, and ATP + phosphate. Dont let that trick ya!
Light dependent reaction
NADP+, ADP, and glucose