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There will be a decrease in the formation of NADPH apex
there will be a decrease in the formation of NADPH.
Depends on the hydrogen gradient. If hydrogen is still flowing down it's concentration gradient through the ATP synthase then some ATP will be made, at least until equilibrium is reached.
A decrease in the formation of ATP
The photons for sunlight will not transfer energy to the electrons in photosystem 1 & 2, leading to not enough energy for the ETC to pump H+ into the lumen of the thylakoid and produce ATP for the Calvin cycle.
A decrease in the formation of NADPH.
there will be a decrease in the formation of NADPH.
If the hydrogen pump protein in photosystem II is not taking enough H ions into the thylakoid, the proton gradient needed for ATP synthesis would be reduced. This would lead to decreased production of ATP, affecting the overall efficiency of the light-dependent reactions of photosynthesis.
There will be a decrease in the formation of NADPH apex
there will be a decrease in the formation of NADPH.
Well, not enough gradient will be built up so hydrogen comes down it's concentration gradient through the synthase and synthesizes ATP. Also NADPH will be adversely affected.
Depends on the hydrogen gradient. If hydrogen is still flowing down it's concentration gradient through the ATP synthase then some ATP will be made, at least until equilibrium is reached.
Well, not enough gradient will be built up so hydrogen comes down it's concentration gradient through the synthase and synthesizes ATP. Also NADPH will be adversely affected.
If the hydrogen pump protein in Photosystem I is not taking in enough H+ ions into the thylakoid, it would disrupt the proton gradient necessary for ATP synthesis during the light-dependent reactions of photosynthesis. This would reduce the production of ATP and could lead to a decrease in overall photosynthetic efficiency and the synthesis of organic molecules in the Calvin cycle.
ATP formation will decrease.(APEX)
A decrease in the formation of ATP
The photons for sunlight will not transfer energy to the electrons in photosystem 1 & 2, leading to not enough energy for the ETC to pump H+ into the lumen of the thylakoid and produce ATP for the Calvin cycle.