Lipid Catabolism Enzymes - Biochemistry
Card 1 of 92
What enzyme performs the shown step in beta oxidation?
What enzyme performs the shown step in beta oxidation?
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This first step of beta oxidation is catalyzed by acyl-CoA dehydrogenase. One way to remember is that the enzyme is named for exactly what it does: remove a hydrogen (dehydrogenate) from acyl-CoA, which is the reactant. In order to be acetyl-CoA the R-group must specifically be a methyl group.
This first step of beta oxidation is catalyzed by acyl-CoA dehydrogenase. One way to remember is that the enzyme is named for exactly what it does: remove a hydrogen (dehydrogenate) from acyl-CoA, which is the reactant. In order to be acetyl-CoA the R-group must specifically be a methyl group.
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What enzyme performs the shown step in beta oxidation?
What enzyme performs the shown step in beta oxidation?
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This second step of beta oxidation is catalyzed by enoyl-CoA hydratase. One way to remember is that the enzyme is named for exactly what it does: adding water (hydrate) across the double bond of enoyl-CoA, which is the reactant.
This second step of beta oxidation is catalyzed by enoyl-CoA hydratase. One way to remember is that the enzyme is named for exactly what it does: adding water (hydrate) across the double bond of enoyl-CoA, which is the reactant.
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What enzyme catalyses the shown step in beta oxidation?
What enzyme catalyses the shown step in beta oxidation?
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This third step in beta oxidation is catalyzed by L-hydroxacyl-CoA dehydrogenase. One way to remember is that the enzyme is named for exactly what it does: remove a hydrogen (dehydrogenate) L-hydroxyacyl-CoA (the reactant).
This third step in beta oxidation is catalyzed by L-hydroxacyl-CoA dehydrogenase. One way to remember is that the enzyme is named for exactly what it does: remove a hydrogen (dehydrogenate) L-hydroxyacyl-CoA (the reactant).
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What enzyme catalyses the below step in beta oxidation?
What enzyme catalyses the below step in beta oxidation?
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This fourth step in beta oxidation is catalyzed by thiolase. The reduced form of coenzyme-A is used as a cofactor to cleave the bond between the alpha and the beta carbon.
This fourth step in beta oxidation is catalyzed by thiolase. The reduced form of coenzyme-A is used as a cofactor to cleave the bond between the alpha and the beta carbon.
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Which cofactor is required in the conversion of fatty acyl-CoA to trans enoyl-CoA by acyl-CoA dehydrogenase?
Which cofactor is required in the conversion of fatty acyl-CoA to trans enoyl-CoA by acyl-CoA dehydrogenase?
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removes two hydrogens to form 
. These two electrons will be donated to the electron transport chain.
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What reaction in beta oxidation does enoyl-CoA hydratase catalyze?
What reaction in beta oxidation does enoyl-CoA hydratase catalyze?
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Enoyl-CoA hydratase catalyzes the the addition of water across the carbon-carbon double bond.
Enoyl-CoA hydratase catalyzes the the addition of water across the carbon-carbon double bond.
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Which reaction in beta oxidation does hydroxyacyl-CoA dehydrogenase catalyze?
Which reaction in beta oxidation does hydroxyacyl-CoA dehydrogenase catalyze?
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Hydroxyacyl-CoA dehydrogenase oxidizes the beta hydroxyl group, forming a carbonyl.
Hydroxyacyl-CoA dehydrogenase oxidizes the beta hydroxyl group, forming a carbonyl.
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What reaction in beta oxidation does thiolase catalyze?
What reaction in beta oxidation does thiolase catalyze?
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Thiolase catalyzes the cleavage of the beta-ketoacyl-CoA.
Thiolase catalyzes the cleavage of the beta-ketoacyl-CoA.
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What cofactor is required for the oxidation of beta-hydroxyacyl-CoA to beta-Ketoacyl-CoA by hydroxyacyl-CoA dehydrogenase?
What cofactor is required for the oxidation of beta-hydroxyacyl-CoA to beta-Ketoacyl-CoA by hydroxyacyl-CoA dehydrogenase?
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NAD is required for the oxidation of beta-hydroxyacyl-CoA to beta-Ketoacyl-CoA by hydroxyacyl-CoA dehydrogenase.
NAD is required for the oxidation of beta-hydroxyacyl-CoA to beta-Ketoacyl-CoA by hydroxyacyl-CoA dehydrogenase.
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What are the two major products of the thiolase-catalyzed reaction?
What are the two major products of the thiolase-catalyzed reaction?
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The two major products of the thiolase-catalyzed reaction are acetyl-CoA and a fatty acyl-CoA shortened by two carbons.
The two major products of the thiolase-catalyzed reaction are acetyl-CoA and a fatty acyl-CoA shortened by two carbons.
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Before a fatty acid is able to undergo the beta-oxidation pathway, it must first be activated to form fatty acyl-CoA and transferred into the mitochondrial matrix from the cytoplasm of a cell via the activity of several enzymes.
What enzyme is responsible for synthesizing fatty acyl-CoA to be transported into the intermembrane space of a mitochondria?
Before a fatty acid is able to undergo the beta-oxidation pathway, it must first be activated to form fatty acyl-CoA and transferred into the mitochondrial matrix from the cytoplasm of a cell via the activity of several enzymes.
What enzyme is responsible for synthesizing fatty acyl-CoA to be transported into the intermembrane space of a mitochondria?
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Three enzymes are ultimately involved in activating fatty acids as fatty acyl-CoA and transferring this molecule into the inner mitochondrial matrix to be broken down via the beta-oxidation pathway. The first enzyme is acyl-CoA synthetase. This enzyme is a type of ATPase, and it uses the thermodynamically favorable dephosphorylation of ATP to drive the synthesis of fatty acyl-CoA from a fatty acid and CoASH. Fatty acids alone cannot cross mitochondrial membranes, but fatty acyl-CoA can cross the outer membrane.
Carnitine palmitoyl transferase II also synthesizes fatty acyl-CoA but acyl-CoA synthetase is the first enzyme to do so, and its dephosphorylation of ATP is what initially activates a fatty acid.
Three enzymes are ultimately involved in activating fatty acids as fatty acyl-CoA and transferring this molecule into the inner mitochondrial matrix to be broken down via the beta-oxidation pathway. The first enzyme is acyl-CoA synthetase. This enzyme is a type of ATPase, and it uses the thermodynamically favorable dephosphorylation of ATP to drive the synthesis of fatty acyl-CoA from a fatty acid and CoASH. Fatty acids alone cannot cross mitochondrial membranes, but fatty acyl-CoA can cross the outer membrane.
Carnitine palmitoyl transferase II also synthesizes fatty acyl-CoA but acyl-CoA synthetase is the first enzyme to do so, and its dephosphorylation of ATP is what initially activates a fatty acid.
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Fatty acyl-CoA enters the intermembrane space of a mitochondria via the enzyme acyl-CoA synthetase. Fatty acyl-CoA is the original input molecule of the beta-oxidation pathway, however, carnitine palmitoyl transferase I replaces the CoA with the molecule carnitine before being transported into the mitochondrial matrix.
Why does carnitine palmitoyl transferase replace coenzyme A with carnitine?
Fatty acyl-CoA enters the intermembrane space of a mitochondria via the enzyme acyl-CoA synthetase. Fatty acyl-CoA is the original input molecule of the beta-oxidation pathway, however, carnitine palmitoyl transferase I replaces the CoA with the molecule carnitine before being transported into the mitochondrial matrix.
Why does carnitine palmitoyl transferase replace coenzyme A with carnitine?
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The carnitine transport protein, known as the carnitine-acylcarnitine translocase, allows the facilitated diffusion of a fatty acid into the mitochondrial matrix. Fatty acids cannot be transported into the mitochondrial matrix alone.
Following this step, carnitine palmitoyl transferase II catalyzes the reaction that reforms fatty acyl-CoA from CoASH and the fatty acylcarnitine.
The carnitine transport protein, known as the carnitine-acylcarnitine translocase, allows the facilitated diffusion of a fatty acid into the mitochondrial matrix. Fatty acids cannot be transported into the mitochondrial matrix alone.
Following this step, carnitine palmitoyl transferase II catalyzes the reaction that reforms fatty acyl-CoA from CoASH and the fatty acylcarnitine.
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What enzyme involved in the first step beta-oxidation pathway? What redox cofactor is formed?
What enzyme involved in the first step beta-oxidation pathway? What redox cofactor is formed?
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Acyl-CoA dehydrogenase converts fatty acyl-CoA to trans-Δ2-enoyl-CoA forming the high energy redox cofactor 
from 
.
Acyl-CoA dehydrogenase converts fatty acyl-CoA to trans-Δ2-enoyl-CoA forming the high energy redox cofactor
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What enzyme is involved with the second step of the beta-oxidation pathway, and what input molecule other than trans-Δ2-enoyl-CoA is required?
What enzyme is involved with the second step of the beta-oxidation pathway, and what input molecule other than trans-Δ2-enoyl-CoA is required?
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Enoyl-CoA hydratase uses hydrates the double bond between the alpha and beta carbons of trans-Δ2-enoyl-CoA by adding a hydroxyl group to the beta carbon and a hydrogen to the alpha carbon.
Enoyl-CoA hydratase uses hydrates the double bond between the alpha and beta carbons of trans-Δ2-enoyl-CoA by adding a hydroxyl group to the beta carbon and a hydrogen to the alpha carbon.
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What is the enzyme involved with the third step of the beta-oxidation pathway? What redox cofactors are formed?
What is the enzyme involved with the third step of the beta-oxidation pathway? What redox cofactors are formed?
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3-L-hydroxyacyl-CoA dehydrogenase converts 3-L-Hydroxyacyl-CoA to beta-Ketoacyl-CoA, forming the high energy redox cofactor 
from 
. This reaction oxidizes the hydroxyl group on the beta carbon of 3-L-hydroxyacyl-CoA to a carbonyl group, and adds a hydrogen with 2 high energy electrons to 
.
3-L-hydroxyacyl-CoA dehydrogenase converts 3-L-Hydroxyacyl-CoA to beta-Ketoacyl-CoA, forming the high energy redox cofactor
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What enzyme catalyzes the fourth reaction in the beta-oxidation pathway? What cofactor is needed for the reaction to occur?
What enzyme catalyzes the fourth reaction in the beta-oxidation pathway? What cofactor is needed for the reaction to occur?
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Beta-Ketoacyl-CoA thiolase converts beta-Ketoacyl-CoA back to acetyl-CoA and a fatty acyl-CoA two carbons shorter than the original fatty acyl-CoA. The new cofactor of acyl-CoA bonds to the beta carbon of beta-Ketoacyl-CoA, and thus the beta carbon of beta-Ketoacyl-CoA becomes the new alpha carbon of the new fatty acyl-CoA. The new fatty acyl-CoA can then re-enter into beta oxidation pathway.
Beta-Ketoacyl-CoA thiolase converts beta-Ketoacyl-CoA back to acetyl-CoA and a fatty acyl-CoA two carbons shorter than the original fatty acyl-CoA. The new cofactor of acyl-CoA bonds to the beta carbon of beta-Ketoacyl-CoA, and thus the beta carbon of beta-Ketoacyl-CoA becomes the new alpha carbon of the new fatty acyl-CoA. The new fatty acyl-CoA can then re-enter into beta oxidation pathway.
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The beta oxidation pathway can be described as .
The beta oxidation pathway can be described as .
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The beta-oxidation pathway is cyclic. Two carbons are removed from a fatty acid chain each time it goes around the pathway. If the initial fatty acid chain has an even number of carbons then the final round of beta oxidation yields two copies of acetyl-CoA.
The beta-oxidation pathway is cyclic. Two carbons are removed from a fatty acid chain each time it goes around the pathway. If the initial fatty acid chain has an even number of carbons then the final round of beta oxidation yields two copies of acetyl-CoA.
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What is the final product in the beta oxidation of fatty acids with an odd number of carbons?
What is the final product in the beta oxidation of fatty acids with an odd number of carbons?
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In the last round of beta oxidation, fatty acids with odd numbers of carbons will yield acetyl-CoA and Coenzyme-A attached to a fatty acid with three carbons (propionyl-CoA)
In the last round of beta oxidation, fatty acids with odd numbers of carbons will yield acetyl-CoA and Coenzyme-A attached to a fatty acid with three carbons (propionyl-CoA)
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Enzymes that hydrolyze fats are known as .
Enzymes that hydrolyze fats are known as .
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Of the above terms, lipase is the term specifically given to the class of enzymes that hydrolyzes fats. A ligase joins two molecules together, so it definitely could not be involved in the hydrolysis (breakdown) of fats. Proteases on the other hand are involved in protein breakdown. Kinases and phosphatases are both involved in removing and transferring phosphate groups.
Of the above terms, lipase is the term specifically given to the class of enzymes that hydrolyzes fats. A ligase joins two molecules together, so it definitely could not be involved in the hydrolysis (breakdown) of fats. Proteases on the other hand are involved in protein breakdown. Kinases and phosphatases are both involved in removing and transferring phosphate groups.
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What is the purpose of the enzyme cis-enoyl-CoA isomerase regarding fatty acids?
What is the purpose of the enzyme cis-enoyl-CoA isomerase regarding fatty acids?
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Cis-enoyl-CoA isomerase has the important role of shifting a double bond in an unsaturated fatty acid to make the molecule degradable. Without this important enzyme, many unsaturated fatty acids would not be able to completely go through beta-oxidation.
Cis-enoyl-CoA isomerase has the important role of shifting a double bond in an unsaturated fatty acid to make the molecule degradable. Without this important enzyme, many unsaturated fatty acids would not be able to completely go through beta-oxidation.
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