What is the Difference Between ATP and NADPH?

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ATP and NADPH are both essential molecules in photosynthesis, but they have distinct functions and structures:

  1. ATP (Adenosine Triphosphate):
  • Primary function: Provides energy to various biochemical reactions.
  • Structure: Consists of a ribose sugar, an adenine base, and a triphosphate group.
  • Production: ATP is produced during aerobic respiration, photosynthesis, and fermentation.
  • Role in photosynthesis: ATP is involved in the light-independent reactions (Calvin Cycle) and provides energy to convert carbon dioxide into glucose.
  1. NADPH (Nicotinamide Adenine Dinucleotide Phosphate):
  • Primary function: Donates electrons to the dark reaction of photosynthesis.
  • Structure: Similar to ATP, NADPH also contains a ribose sugar, an adenine base, and a triphosphate group.
  • Production: NADPH is produced by cyclic photophosphorylation.
  • Role in photosynthesis: NADPH is involved in the reduction of carbon dioxide into glucose in the Calvin Cycle.

In summary, ATP serves as an energy carrier, while NADPH acts as an electron carrier in the photosynthetic process. Both molecules play crucial roles in energy transfer and storage, but their primary functions differ.

Comparative Table: ATP vs NADPH

Here is a table comparing the differences between ATP and NADPH:

Feature ATP NADPH
Chemical Formula C10H16N5O13P3 C21H29N7O17P3
Number of Phosphate Groups 3 2
Function Provides energy to various biochemical reactions Donates electrons to the dark reaction of photosynthesis
Role in Photosynthesis Produced in the first electron transport chain Produced in the second electron transport chain
Synthesis Pathways Cellular respiration, photophosphorylation, and fermentation Pentose phosphate pathway in animals and Calvin cycle in plants
Usage Provides energy for various types of biochemical reactions, including anabolic reactions and cell division Serves as a reducing agent in anabolic reactions and the Calvin cycle in photosynthesis

ATP is the energy currency of the cell, while NADPH serves as a coenzyme that donates electrons and hydrogens to reactions catalyzed by various enzymes. The hydrolysis of ATP releases energy, whereas the oxidation of NADPH provides electrons.