In the Calvin cycle, it reduces the carbon dioxide to a carbohydrate. So i take it, it supplies carbon to a carbohydrate. it fits one of the answers on the ch. 7&8 study guide for professor Tim's BIO class at SFCC.
Electron acceptor
NADP
nadp+
NADP+ is reduced in many different places. In animals cells, for example, during the breakdown of one glucose molecule two are reduced during glycolysis, two are reduced during the oxidation of pyruvate, and 6 are created during the Krebs cycle.
A carrier molecule is a compound that can accept a pair of high energy electrons and transfer them to another molecule. The carrier molecule in photosynthesis is NADP or the nicotinamide adenine dinucleotide phosphate.
Its essantial
NADP
no
nadp+
If there was a shortage of NADP plus, the cells in the plant would not be able to run through the photosynthesis cycle.
Is this an AP lab?The DPIP replaces NADP+.In photosynthesis, NADP is reduced to NADPH, but NADP is colorless.DPIP replaces the NADP. When DPIP is reduced, it changes from blue to clear. DPIP is used to show photosynthesis taking place.
Nadp+
NADP+ which then grabs a hyrdogen and becomes NADPH
NADP and NADPH
NADP+ is reduced in many different places. In animals cells, for example, during the breakdown of one glucose molecule two are reduced during glycolysis, two are reduced during the oxidation of pyruvate, and 6 are created during the Krebs cycle.
Glucose, NADP and ADP
Glucose, NADP and ADP
A carrier molecule is a compound that can accept a pair of high energy electrons and transfer them to another molecule. The carrier molecule in photosynthesis is NADP or the nicotinamide adenine dinucleotide phosphate.