The equation for the final step in the catabolism of any fatty acids with an even number of carbon atoms should be written. Concept introduction: Fatty acids are aliphatic mono- carboxylic acids that are mostly obtained from the hydrolysis of natural fats and oils. They have a general formula R − ( C H 2 ) n − C O O H , n is mostly an even number of carbon atoms (4 to 20) with a few exceptions that have an odd number. Fatty acids are highly water insoluble. Therefore it must be transported in blood in with a protein. Catabolism is a metabolic process that breaks down large molecules into smaller molecules with releases of particular amount of energy in the form of ATP. Enzyme: It is a protein or a molecule which can act as a catalyst for a biological reaction. Does not affect the equilibrium point of the reaction. Active site of the enzyme is the region where the reaction takes place. Enzyme’s activity can be specific which means the activity is limited to a certain substrate and a certain type of reaction and it is referred to as specificity of the enzyme. Cofactor: It is a non-protein part of an enzyme which is essential to the enzyme’s catalytic activity and it can be a cofactor or a coenzyme. Coenzyme: It is an organic molecule that acts as an enzyme cofactor.

Question

Want to see the full answer?

Answer 1

Question

Definition Definition Class of organic compounds that contain a carboxyl group ( - COOH ) and has a general formula R - COOH or R - CO 2 H , where R refers to the alkyl, alkenyl, aryl, or other groups. They can undergo different chemical reactions, such as acid-base reactions, esterification, and oxidation. These are essential components of living organisms, playing important roles in metabolic processes, signaling, and as pharmaceuticals.

Chapter 24, Problem 24.48AP

Interpretation Introduction

Interpretation:

The equation for the final step in the catabolism of any fatty acids with an even number of carbon atoms should be written.

Concept introduction:

Fatty acids are aliphatic mono-carboxylic acids that are mostly obtained from the hydrolysis of natural fats and oils. They have a general formula R−(CH2)n−COOH, n is mostly an even number of carbon atoms (4 to 20) with a few exceptions that have an odd number.

Fatty acids are highly water insoluble. Therefore it must be transported in blood in with a protein.

Catabolism is a metabolic process that breaks down large molecules into smaller molecules with releases of particular amount of energy in the form of ATP.

Enzyme:

It is a protein or a molecule which can act as a catalyst for a biological reaction.

Does not affect the equilibrium point of the reaction.

Active site of the enzyme is the region where the reaction takes place.

Enzyme’s activity can be specific which means the activity is limited to a certain substrate and a certain type of reaction and it is referred to as specificity of the enzyme.

Cofactor: It is a non-protein part of an enzyme which is essential to the enzyme’s catalytic activity and it can be a cofactor or a coenzyme.

Coenzyme: It is an organic molecule that acts as an enzyme cofactor.

Expert Solution & Answer

Want to see the full answer?

Check out a sample textbook solution

See solution

Students have asked these similar questions

Draw the predominant form of glutamic acid at pH = 8.4. The pKa of the side chain is 4.1. Include proper stereochemistry. HO H2N OH pH = 8.4

How would I draw this?

Calculate the standard change in Gibbs free energy, AGrxn, for the given reaction at 25.0 °C. Consult the table of thermodynamic properties for standard Gibbs free energy of formation values. NH,Cl(s) →NH; (aq) + C1 (aq) AGrxn -7.67 Correct Answer Determine the concentration of NH+ (aq) if the change in Gibbs free energy, AGrxn, for the reaction is -9.27 kJ/mol. 6.49 [NH+] Incorrect Answer kJ/mol M

Answer 2

Question

Definition Definition Class of organic compounds that contain a carboxyl group ( - COOH ) and has a general formula R - COOH or R - CO 2 H , where R refers to the alkyl, alkenyl, aryl, or other groups. They can undergo different chemical reactions, such as acid-base reactions, esterification, and oxidation. These are essential components of living organisms, playing important roles in metabolic processes, signaling, and as pharmaceuticals.

Chapter 24, Problem 24.48AP

Interpretation Introduction

Interpretation:

The equation for the final step in the catabolism of any fatty acids with an even number of carbon atoms should be written.

Concept introduction:

Fatty acids are aliphatic mono-carboxylic acids that are mostly obtained from the hydrolysis of natural fats and oils. They have a general formula R−(CH2)n−COOH, n is mostly an even number of carbon atoms (4 to 20) with a few exceptions that have an odd number.

Fatty acids are highly water insoluble. Therefore it must be transported in blood in with a protein.

Catabolism is a metabolic process that breaks down large molecules into smaller molecules with releases of particular amount of energy in the form of ATP.

Enzyme:

It is a protein or a molecule which can act as a catalyst for a biological reaction.

Does not affect the equilibrium point of the reaction.

Active site of the enzyme is the region where the reaction takes place.

Enzyme’s activity can be specific which means the activity is limited to a certain substrate and a certain type of reaction and it is referred to as specificity of the enzyme.

Cofactor: It is a non-protein part of an enzyme which is essential to the enzyme’s catalytic activity and it can be a cofactor or a coenzyme.

Coenzyme: It is an organic molecule that acts as an enzyme cofactor.

Expert Solution & Answer

Want to see the full answer?

Check out a sample textbook solution

See solution

Answer 3

Question

Definition Definition Class of organic compounds that contain a carboxyl group ( - COOH ) and has a general formula R - COOH or R - CO 2 H , where R refers to the alkyl, alkenyl, aryl, or other groups. They can undergo different chemical reactions, such as acid-base reactions, esterification, and oxidation. These are essential components of living organisms, playing important roles in metabolic processes, signaling, and as pharmaceuticals.

Chapter 24, Problem 24.48AP

Interpretation Introduction

Interpretation:

The equation for the final step in the catabolism of any fatty acids with an even number of carbon atoms should be written.

Concept introduction:

Fatty acids are aliphatic mono-carboxylic acids that are mostly obtained from the hydrolysis of natural fats and oils. They have a general formula R−(CH2)n−COOH, n is mostly an even number of carbon atoms (4 to 20) with a few exceptions that have an odd number.

Fatty acids are highly water insoluble. Therefore it must be transported in blood in with a protein.

Catabolism is a metabolic process that breaks down large molecules into smaller molecules with releases of particular amount of energy in the form of ATP.

Enzyme:

It is a protein or a molecule which can act as a catalyst for a biological reaction.

Does not affect the equilibrium point of the reaction.

Active site of the enzyme is the region where the reaction takes place.

Enzyme’s activity can be specific which means the activity is limited to a certain substrate and a certain type of reaction and it is referred to as specificity of the enzyme.

Cofactor: It is a non-protein part of an enzyme which is essential to the enzyme’s catalytic activity and it can be a cofactor or a coenzyme.

Coenzyme: It is an organic molecule that acts as an enzyme cofactor.

Expert Solution & Answer

Want to see the full answer?

Check out a sample textbook solution

See solution

Answer 4

Question

Definition Definition Class of organic compounds that contain a carboxyl group ( - COOH ) and has a general formula R - COOH or R - CO 2 H , where R refers to the alkyl, alkenyl, aryl, or other groups. They can undergo different chemical reactions, such as acid-base reactions, esterification, and oxidation. These are essential components of living organisms, playing important roles in metabolic processes, signaling, and as pharmaceuticals.

Chapter 24, Problem 24.48AP

Interpretation Introduction