Table of Contents
How NADPH is formed?
NADPH is produced from NADP+. The major source of NADPH in animals and other non-photosynthetic organisms is the pentose phosphate pathway, by glucose-6-phosphate dehydrogenase (G6PDH) in the first step. The pentose phosphate pathway also produces pentose, another important part of NAD(P)H, from glucose.
What happens to NADPH?
The NADPH first accepts the electrons and hydrogen when special enzymes transfer these particles to the molecule NADP+. In this reaction the NADP+ becomes reduced when it accepts the electrons and hydrogen, going from a positive electrical state to a more negative neutral state as a NADPH molecule.
What ingredients are needed to transform NADP+ to NADPH?
In the light reactions, water is split, providing a source of electrons and protons and giving off 02 as a byproduct. Light absorbed by chlorophyll drives the transfer of electrons and hydrogen ions from water to NADP+, forming NADPH.
Where NADPH is produced?
Unlike the light reactions, which take place in the thylakoid membrane, the reactions of the Calvin cycle take place in the stroma (the inner space of chloroplasts). This illustration shows that ATP and NADPH produced in the light reactions are used in the Calvin cycle to make sugar.
Where is NADPH produced quizlet?
NADPH is produced from the last enzyme on the end of the transport chain (from photosystem I), binding them to NAD+ and from the release of H+ ions through the ATP synthase, at the end of chemiosmosis. The synthase also creates ATP.
Where does NADPH go in photosynthesis?
stroma
The light-independent reactions of photosynthesis take place within the stroma. It contains enzymes that work with ATP and NADPH to “fix” carbon from carbon dioxide into molecules that can be used to build glucose.
How is NADPH different from NADP+ quizlet?
NADPH is an energy molecule. NADP+ is an e- acceptor. It turns into NADPH by accepting both e- and H+ molecules. What are the reactants and products of Light reaction?
How is NADPH made quizlet?
Is the energy carrier NADPH formed in cellular respiration?
You should be familiar with the energy carrier molecules used during cellular respiration: NADH and FADH2. The lower energy form, NADP+, picks up a high energy electron and a proton and is converted to NADPH.
What are the sources of NADPH?
The oxidative branch of the hexose monophosphate shunt or pentose phosphate pathway is generally accepted to be the major cellular source of NADPH.