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What will most likely happen if the hydrogen pump protein in photosystem 2 does not move enough H ions into the thylakoids?
Wiki User
∙ 9y ago
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.
Vincent Hilpert
Wiki User
∙ 9y agoA decrease in the formation of ATP if the hydrogen pump protein in photosystem 2 does not move enough H plus ions the thylakoid.
Wiki User
∙ 9y agoATP formation will decrease if the hydrogen pump protein in photosystem 2 does not move enough H plus ions the thylakoid.
Jack Keprn
The decrease in NADPH Production is the right answer
Wiki User
∙ 12y agoB the chloroplast will absorb less co2
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What will most likely happen if the hydrogen pump protein in photosystem II is not taking enough H ions into the thylakoid?
A decrease in the formation of ATP
What will most likely happen if the hydrogen pump protein in photosystem II is not taking enough H plus ions into the thylakoid?
ATP formation will decrease.(APEX)
How much protein in red rice?
220 calories of Red rice(one serving) will give you 5 grams of protein.Rice has enough protein quite contrary to its reputation.2200 calories of Red rice will give you 50 grams of protein which is enough for anyone. The protein in Red Rice is the best protein as concluded by the latest reasearch
What happens when fire mixes with hydrogen?
If there is enough oxygen, the hydrogen will ignite and burn rapidly, possible leading to an explosion.
Hydrogen fluoride is ionic or covalent why?
It is covalent as there is not enough of a difference in electronegativity for the fluorine to completely pull the electrons away from hydrogen.
What will most likely happen if the hydrogen pump protein in photosystem is not taking enough h plus ions into the thylakoids?
there will be a decrease in the formation of NADPH A decrease in the formation of ATP
What will most likely happen if the hydrogen pump protein in photosystem II is not taking enough H plus ions into the thylakoids?
there will be a decrease in the formation of NADPH A decrease in the formation of ATP
What will most likely happen if the hydrogen pump protein in photosystem 1 is not taking in enough H ions into the thylakoid?
A decrease in the formation of NADPH.
What will most likely happen if the hydrogen pump protein in photosystem it doesn't take in enough H ions into the thylakiod?
A decrease in the formation of ATP
What will most likely happen if the hydrogen pump protein in photosystem II is not taking enough H ions into the thylakoid?
A decrease in the formation of ATP
What will most likely happen if the hydrogen pump protein in photosystem 1 doesn't take in enough h ions into the thylakoid?
there will be a decrease in the formation of NADPH.
What would most likely happen if the hydrogen pump protein in photosystem 2 is not taking enough H plus ions into the thylakoid?
There will be a decrease in the formation of NADPH apex
What will most like happen if the hydrogen pump protein in photosystem 1 is not taking in enough H plus ions into the thylakoid?
there will be a decrease in the formation of NADPH.
What will most likely happen if the hydrogen pump protein in photosystem I doesn't take in enough H plus ions in the thylakoid?
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.
What will most likely happen if the hydrogen pump protein in photosystem 2 does not move H ions into the thylakoid?
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.
What will most likely happen if the hydrogen pump protein in photosystem II is not taking enough H plus ions into the thylakoid?
ATP formation will decrease.(APEX)
How and why is severe acidosis dangerous?
Acidosis implies high levels of hydrogen ions from acids and/or low levels of anions (e.g. bicarbonate) in the blood. The hydrogen ions easily bind to the polar groups on proteins. In high enough concentrations the protein can have its overall polarity or important active sites on it changed. These changes will alter the function of the protein, hindering it from working properly. If enough proteins are affected then you eventually fall into a coma and if left untreated you die.
