The energy to synthesize ATP comes from
substrate level phosphorylation and coupled (redox) reactions. |
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the sun. |
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the hydrolysis of adenosine triphosphate. |
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the synthesis of complex sugar molecules from monosaccharide subunits. |
Answer is substrate level phosphorylation and coupled(redox)
reactions.
The direct transfer of phosphoryl group to ADP or GDP results in
the formation of ATP and the phosphoryl group is obtained from
other phosphorylated compound.
This reaction is called substrate level phosphorylation and it is a
metabolic reaction. This reaction provides quicker and less
efficient source of ATP.
The oxidative phosphorylation reaction produce most of the ATP in
aerobic and anaerobic respiration.
Coupled reactions are also used for the synthesis of ATP by
phosphorylating the ADP. Combining the inorganic phosphate to ADP
also produce ATP which is a non spontaneous reaction.
This reaction is get coupled with the oxidation of the NADH and
FADH2 and these are synthesized from the glycolysis reaction and
citric acid cycle.
The energy to synthesize ATP comes from substrate level phosphorylation and coupled (redox) reactions. the sun....
Adenosine triphosphate (ATP) is the main \"energy currency\" used in cells. ATP hydrolysis is coupled with unfavorable reactions, making the net change in energy for the set of reactions less than zero (favorable). Although ATP is the main energy currency, other molecules, such as acetyl-CoA can fulfill this role and take part in coupled reactions. Which of the following groups are present in acetyl-CoA? Select five groups.
Adenosine triphosphate (ATP) is the main "energy currency" used in cells. ATP hydrolysis is coupled with unfavorable reactions, making the net change in energy for the set of reactions less than zero (favorable). Although ATP is the main energy currency, other molecules can fulfill this role and take part in coupled reactions. Determine whether each of the phrases or examples describes a thioester, reduced cofactor, or phosphorylated compound: Acetyl CoA, Ubiquinol, Phosphocreatine, the Sulfur-Carbon bond is hydrolyzed, These compounds yield...
Please sort the following Adenosine triphosphate (ATP) is the main "energy currency" used in cells. ATP hydrolysis is coupled with unfavorable reactions, making the net change in energy for the set of reactions less than zero (favorable). Although ATP is the main energy currency, other molecules can fulfill this role and take part in coupled reactions. Determine whether each of the phrases or examples describes a thioester, reduced cofactor, or phosphorylated compound.
1) Define "substrate-level phosphorylation." (One clear complete sentence will work as an answer.) B) The reaction ADP + Pi → ATP is highly endergonic. In the case of substrato-level phosphorylation, where does the energy required for ATP synthesis come from? (Not the sun. I mean most immediately in the phosphorylation reaction itself.) C) Define "oxidative phosphorylation." (One clear complete sentence will work as an answer.) D) The reaction ADP - Pi → ATP is highly endergonic. In the case of...
Please help!!!! I am lost on this one! Adenosine triphosphate (ATP) is the main ''energy currency'' used in cells. ATP hydrolysis is coupled with unfavorable reactions, making the net change in energy for the set of reactions less than zero (favorable, Although ATP is the main energy currency, other molecules can fulfill this role and take part in coupled reactions. Determine whether each of the phrases or examples describes a thioester, reduced cofactor, or phosphorylated compound. Thioesters Reduced Cofactors Phosphorylated...
Be CLEAR and CORRECT A) Define “substrate-level phosphorylation." (One clear complete sentence will work as an answer.) B) The reaction ADP + Pi → ATP is highly endergonic. In the case of substrate-level phosphorylation, where does the energy required for ATP synthesis come from? (Not the sun. I mean most immediately in the phosphorylation reaction itself.) C) Define "oxidative phosphorylation.” (One clear complete sentence will work as an answer.)
Describe the differences between substrate-level phosphorylation and chemiosmotic (oxidative) phosphorylation as mechanisms of ATP formation. Where in a prokaryotic cell does each occur? What are the substrates that are used to form ATP? What is the source of energy for ATP synthesis?
What is substrate-level phosphorylation? Group of answer choices Formation of ATP on reactions outside the ATP synthase. Modification of the substrate via glycolysis. Addition of carbon groups to phosphate. None of the above.
The synthesis of ATP (phosphorylation) occurs as a means of trapping energy released by metabolic reactions. 3 general mechanisms of phosphorylation are listed below. Define and distinguish between these 3 mechanisms. For each mechanism, identify a metabolic reaction that involves that type of phosphorylation and identify a group of microbes that carry out that metabolic reaction. Substrate-level phosphorylation Oxidative phosphorylation Photophosphorylation
Classify each statement as being involved in substrate-level phosphorylation, oxidative phosphorylation, or both. Substrate-level phosphorylation Oxidative phosphorylation Both Answer Bank Bank oxidation-reduction reactions occuring involves electron transport chains relatively large amounts of ATP produced per glucose molecule oxidized relatively small amounts of ATP produced per glucose molecule oxidized occurs in the cytosol occurs in the mitochondria high-energy phosphate groups transferred to ADP