Describe the path of an electron from a molecule of water to the sugar g3p

The electrons move by static attraction. Electrons are negatively charged particles that are closely connected with the atoms. The electrons are always delocalized. This means that they belong to no particular atom, but instead, are freely moving around. It is the electrons that help with the transfer of charge in the molecule. In addition, it is the delocalized electrons that carry the charge in the solution. Finally, it is the electrons that make the solution to conduct current.

luisvaschetto luisvaschetto · Answer 2 · 2021-11-13T13:40:43+01:00

The pathway of an electron from a molecule of water to the sugar G3P is the electron from water goes with a proton (H+) to the ATP synthase and finally joins the sugar G3P.

Photosynthesis refers to the series of metabolic reactions by which plants can produce simple carbohydrates (sugars) by using the light energy from the sun, carbon dioxide and water.

The photosynthetic reactions can be divided into two types of reactions: light-dependent reactions and the Calvin cycle (i.e., light-independent reactions).

Glyceraldehyde 3-phosphate (G3P) is a 3-carbon sugar that represents the product of the Calvin cycle, which is used to synthesize other carbohydrates.

The photosystem II (PSII) is a photosynthetic reaction center that obtains electrons from water (H2O), which are then used to produce NADPH and ATP.

Subsequently, NADPH donates electrons to a three-carbon intermediate (3-PGA) in order to produce G3P.

In conclusion, the pathway of an electron from a molecule of water to the sugar G3P is the electron from water goes with a proton (H+) to the ATP synthase and finally joins the sugar G3P.

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