The molecules that provide energy to G3P, also know as glyceraldehyde-3-phosphate is the mitochondria, chloroplast and the nucleus. They work together to provide energy. How? Simple. The nucleus is the "brain" of any cell. In this process the nucleus gives direction to every molecule in the cell to preform their correct task. The mitochondria is the power house of the cell, as you should know. If you don't, that's fine. At least you know now. Anyway, the mitochondria in this process gives the cell its needed ATP (ATP gives energy to the cell) Lastly,the chloroplast allows the plant cell to do photosynthesis! Photosynthesis gives energy to the plant, which is good. In conclusion, as I said before, it's the mitochondria, chloroplast and nucleus who help provide energy for the production of G3P. All three. It's a super simple concept. Hope this answers your question!!!
ATP and NADPH novanet :)
butt muffins
ATP and NADPH novanet :)
butt muffins
G3p
They are the same.
ATP and NADPH novanet :)
For every six molecules of CO2 that enter the Calvin cycle, two molecules of G3P are produced. Most of the G3P produced during the Calvin cycle - 10 of every 12 G3P produced - are used to regenerate the RuBP in order for the cycle to continue. Some of the molecules of G3P, however, are used to synthesize glucose and other organic molecules
butt muffins
ATP and NADPH novanet :)
butt muffins
G3p
ATP and NADPH novanet :)
Glyceraldehyde 3 phospate also known as (G3P) is one of the two molecules created in the last step of the initial energy investment stage of glycolysis. Thus, 2 G3P molecules create one glucose molecule, which it why it is created in the Calvin cycle of photosynthesis. One G3P molecule is created after 3 turns of the cycle, and after 3 CO2 molecules are fixed to the initial intermediate ribulose-biphosphate (RuBP).
G3P molecules which combine to form glucose
The formation of starch in plants involves assembling many G3P molecules, with or without further rearrangements.
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