True or false? The chemiosmotic hypothesis states that the synthesis of ATP generates a proton gradient that leads to electron flow through an electron transport chain.
True
True. The chemiosmotic hypothesis is a widely accepted model that explains how ATP (adenosine triphosphate) is synthesized in cells. According to this hypothesis, the synthesis of ATP is coupled to the generation of a proton gradient across a membrane, which in turn drives electron flow through an electron transport chain.
In the process of cellular respiration, ATP is synthesized in the mitochondria. During the electron transport chain, electrons derived from the breakdown of glucose and other fuel molecules are transferred between various protein complexes embedded in the inner mitochondrial membrane. As electrons are passed along this chain, protons (H+) are pumped across the membrane from the matrix to the intermembrane space.
This movement of protons creates a concentration gradient, with a higher concentration of protons in the intermembrane space compared to the matrix. The chemiosmotic hypothesis proposes that this proton gradient stores potential energy. This potential energy is harnessed by specialized protein complexes, called ATP synthases, located in the inner mitochondrial membrane.
As protons flow back into the matrix through these ATP synthases, ADP (adenosine diphosphate) and inorganic phosphate (Pi) combine to form ATP. This process is known as oxidative phosphorylation. The flow of protons through ATP synthase is facilitated by a rotational mechanism, where the movement of protons causes a conformational change in ATP synthase, allowing the coupling of the proton flow with the synthesis of ATP.
In conclusion, the chemiosmotic hypothesis accurately describes how the synthesis of ATP is coupled with the generation of a proton gradient through electron flow in the electron transport chain.
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