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What is the electron carrier molecule when carrying excited electrons it becomes NADPH?
NADP
How does NADP transfer electrons?
NADP transfers electrons by accepting them from other molecules in redox reactions, taking on two electrons and a proton to form NADPH. This process typically occurs in metabolic pathways such as photosynthesis and cellular respiration, where NADP acts as an electron carrier to facilitate energy production.
Photosynthesis carrier molecules?
In photosynthesis, carrier molecules like NADPH and ATP play crucial roles in transferring energy and electrons during the light-dependent reactions. NADPH carries energized electrons to fuel the Calvin cycle, while ATP provides energy for glucose synthesis. These molecules help convert light energy into chemical energy that plants use for growth and survival.
What is the coenzyme in the of photosynthesis?
The coenzyme in photosynthesis is NADP+ (nicotinamide adenine dinucleotide phosphate), which functions as an electron carrier during the light-dependent reactions. It accepts electrons from photosystem I and is reduced to NADPH, which carries the high-energy electrons to the Calvin cycle for carbon fixation.
How is the function of NAD plus similar to that of NADP plus?
Both NAD+ and NADP+ are coenzymes involved in redox reactions in cells. They both act as electron carriers, accepting and donating electrons during metabolic processes. NAD+ is primarily involved in catabolic reactions, while NADP+ is involved in anabolic reactions.
Which molecule acts as a carrier during photosynthesis?
Nadp+
What high energy electron carrier is needed to transform 2 electrons and one hydrogen ion into NADPH?
The high-energy electron carrier needed to transform 2 electrons and one hydrogen ion into NADPH is NADP+ (nicotinamide adenine dinucleotide phosphate). During this process, NADP+ accepts the electrons and hydrogen ion, becoming reduced to NADPH. This reaction is essential in photosynthesis and various metabolic pathways where NADPH serves as a reducing agent.
Which molecule acts as a carrier for high energy electrons during photosynthesis?
NADPH (nicotinamide adenine dinucleotide phosphate) is the molecule that acts as a carrier for high-energy electrons during photosynthesis. It is produced during the light reactions of photosynthesis and carries the electrons to the Calvin cycle to help in the synthesis of sugars.
What do the NADP molecules do during photosynthesis?
NADP molecules act as electron carriers in the light-dependent reactions of photosynthesis. They accept electrons and protons from water molecules that are split during photosynthesis, and transport these to the Calvin cycle where they are used to reduce carbon dioxide to produce sugars.
What are two carrier molecules involvede with photosynthesis?
NADP and NADPH
Do NADP plus store electrons for photosynthesis?
no
Which part of the photosynthesis cycle involves an enzyme taking a molecule of NADP plus and adding two electrons and one protons to it?
The part of the photosynthesis cycle that involves an enzyme adding two electrons and one proton to NADP+ occurs during the light-dependent reactions, specifically in the process of photophosphorylation. This reaction is facilitated by the enzyme NADP+ reductase, which helps convert NADP+ into NADPH. This conversion is crucial as NADPH serves as an energy carrier and reducing agent in the subsequent light-independent reactions (Calvin cycle) of photosynthesis.
