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-I'm 98% sure ATP synthase binds ADP and a phosphate group together to produce ATP. But I could be wrong. Its a start!ATP synthase is involved in making energy available to the cell by synthesizing large proteins and converting ADP and inorganic phosphate into high-energy ATP.
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How is ATP synthase involved is making energy available to the cell?
-I'm 98% sure ATP synthase binds ADP and a phosphate group together to produce ATP. But I could be wrong. Its a start!ATP synthase is involved in making energy available to the cell by synthesizing large proteins and converting ADP and inorganic phosphate into high-energy ATP.
How is ATP synthase involved in making energy involved in the cell?
-I'm 98% sure ATP synthase binds ADP and a phosphate group together to produce ATP. But I could be wrong. Its a start!ATP synthase is involved in making energy available to the cell by synthesizing large proteins and converting ADP and inorganic phosphate into high-energy ATP.
Where in the process of cellular respiration does ATP synthase make ATP?
ATP synthase makes ATP during oxidative phosphorylation, which occurs in the inner mitochondrial membrane. Protons flowing through ATP synthase drive the synthesis of ATP from ADP and inorganic phosphate. This process is the final step in cellular respiration and is essential for the production of ATP, the cell's primary energy source.
Are protons are also involved in making of energy from particles?
Yes, protons are also involved in making of energy from particles because they contain positive charge and are present in nucleus with the force of attraction between protons and neutrons.
Is energy always involved in making or breaking chemical bonds?
no, some reactions are spontenous.
How is energy trapped by ATP?
Breaking the bonds in ATP releases the energy in the bonds. Making ATP would "trap" the energy. The difference in the ion gradient across a membrane happens during cellular respiration. The enzyme ATP synthase makes ATP. It allows protons to pass through the membrane using the kinetic energy to add P to ADP making ATP. ATP production occurs in chloroplasts and mitochondria.
The ATP synthase in a human cell gets energy fro making ATP directly from where?
An electron chemical gradient - Ie, the Proton or H+ gradient. There is a concentration difference in H+ ions, and a charge difference between the two sides of the mitochondrial membrane that the ATP synthase is embedded in. Thuse you can consider the H+ ions "under pressure" (layman's term), and they provide the power for the ATP synthase to work, as they flow through it.
What is the of ATP synthase in photosynthesis?
The pigment molecules and electron transport chains involved in the light-dependent reactions of photosynthesis are embedded in the thylakoid membrane. As energy is released from electrons traveling through the chain of acceptors, it is used to pump protons (that is, H+ ions) from the stroma of the chloroplast across the thylakoid membrane and into the center of the thylakoid. Thus, protons accumlate within the thylakoids, lowering the pH of the thylakoid interior and making it more acidic. A proton gradient possesses potential energy that can be used to form ATP.Protons are prevented from diffusing out of the thylakoid because the thylakoid membrane is impermeable to protons except at certain points bridged by an enzyme called ATP synthase. This protein extends across the thylakoid membrane and forms a channel through which protons can leave the thylakoid. As the protons pass through ATP synthetase, energy is released, and this energy is tapped by ATP synthase to form ATP from ADP and inorganic phosphate. The coupling of ATP synthesis to a protein gradient formed by energy released during electron transport is called chemiosmosis.
What is the role of synthase in photosynthesis?
The pigment molecules and electron transport chains involved in the light-dependent reactions of photosynthesis are embedded in the thylakoid membrane. As energy is released from electrons traveling through the chain of acceptors, it is used to pump protons (that is, H+ ions) from the stroma of the chloroplast across the thylakoid membrane and into the center of the thylakoid. Thus, protons accumlate within the thylakoids, lowering the pH of the thylakoid interior and making it more acidic. A proton gradient possesses potential energy that can be used to form ATP.Protons are prevented from diffusing out of the thylakoid because the thylakoid membrane is impermeable to protons except at certain points bridged by an enzyme called ATP synthase. This protein extends across the thylakoid membrane and forms a channel through which protons can leave the thylakoid. As the protons pass through ATP synthetase, energy is released, and this energy is tapped by ATP synthase to form ATP from ADP and inorganic phosphate. The coupling of ATP synthesis to a protein gradient formed by energy released during electron transport is called chemiosmosis.
Steps involved in decision making process?
There are a number of steps involved in decision making process. Some of the key steps include gathering relevant information, analysis and evaluation of the information gathered and comparing the various options available before making a decision.
Is geothermal energy available at predictable times?
Yes, geothermal energy is available 24/7, making it a reliable and consistent source of energy. It is not impacted by weather conditions or sunlight, unlike solar or wind energy, and can provide a constant source of power.
What is the role if ATP synthase in photosynthesis?
The pigment molecules and electron transport chains involved in the light-dependent reactions of photosynthesis are embedded in the thylakoid membrane. As energy is released from electrons traveling through the chain of acceptors, it is used to pump protons (that is, H+ ions) from the stroma of the chloroplast across the thylakoid membrane and into the center of the thylakoid. Thus, protons accumlate within the thylakoids, lowering the pH of the thylakoid interior and making it more acidic. A proton gradient possesses potential energy that can be used to form ATP.Protons are prevented from diffusing out of the thylakoid because the thylakoid membrane is impermeable to protons except at certain points bridged by an enzyme called ATP synthase. This protein extends across the thylakoid membrane and forms a channel through which protons can leave the thylakoid. As the protons pass through ATP synthetase, energy is released, and this energy is tapped by ATP synthase to form ATP from ADP and inorganic phosphate. The coupling of ATP synthesis to a protein gradient formed by energy released during electron transport is called chemiosmosis.
