General, Organic, and Biological Chemistry
General, Organic, and Biological Chemistry
7th Edition
ISBN: 9781285853918
Author: H. Stephen Stoker
Publisher: Cengage Learning
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Chapter 26, Problem 26.116EP

(a)

Interpretation Introduction

Interpretation:

To indicate whether B vitamin riboflavin is involved as a cofactor in the processes of (1) transamination, (2) oxidative deamination, (3) urea cycle, (4) carbon skeleton degradation to CAC intermediates, or (5) carbon skeleton degradation to non-CAC intermediates.

Concept introduction:

Cofactors are non-protein organic compounds that are used along with the enzymes and help to carry forward the reaction. The coenzymes containing B-vitamin serve as temporary carriers of atoms or functional groups in the redox and group transfer reactions associated with the metabolism of ingested food in order to obtain energy from the food.

Transamination reaction is a biochemical reaction that involves the transfer of an amino group. In transamination reaction exchange of an amino group from an α-amino acid with a keto group of α-keto acid. There occurs no net loss or gain of amino acid in transamination reaction.

A biochemical reaction in which an α-amino acid is converted into α-keto acid along with the release of an ammonium ion is known as oxidative deamination reaction.

A urea cycle is a cyclic biochemical pathway that involves the production of urea using ammonium ions and aspartate molecules as nitrogen sources. The reactants in the formation of carbamoyl phosphate are ammonium ion, water, and carbon dioxide. The desired product of the urea cycle is urea.

There are 20 standard amino acids. Each amino acid has a different carbon skeleton and has a different degradation pathway for its carbon skeleton.

(a)

Expert Solution
Check Mark

Answer to Problem 26.116EP

B vitamin riboflavin is involved as a cofactor in carbon skeleton degradation to non-CAC intermediates.

Explanation of Solution

Coenzyme flavin adenine dinucleotide (FAD) contains the B vitamin riboflavin in its structure.

Flavin adenine dinucleotide (FAD) is also involved in the carbon skeleton degradation pathway to non-CAC intermediates. An overview of the B vitamin participations in the degradation pathways for the carbon skeletons of the 20 standard amino acids is as follows:

General, Organic, and Biological Chemistry, Chapter 26, Problem 26.116EP , additional homework tip 1

(b)

Interpretation Introduction

Interpretation:

To indicate whether B vitamin thiamin is involved as a cofactor in the processes of (1) transamination, (2) oxidative deamination, (3) urea cycle, (4) carbon skeleton degradation to CAC intermediates, or (5) carbon skeleton degradation to non-CAC intermediates.

Concept introduction:

Cofactors are non-protein organic compounds that are used along with the enzymes and help to carry forward the reaction. The coenzymes containing B-vitamin serve as temporary carriers of atoms or functional groups in the redox and group transfer reactions associated with the metabolism of ingested food in order to obtain energy from the food.

Transamination reaction is a biochemical reaction that involves the transfer of an amino group. In transamination reaction exchange of an amino group from an α-amino acid with a keto group of α-keto acid. There occurs no net loss or gain of amino acid in transamination reaction.

A biochemical reaction in which an α-amino acid is converted into α-keto acid along with the release of an ammonium ion is known as oxidative deamination reaction.

A urea cycle is a cyclic biochemical pathway that involves the production of urea using ammonium ions and aspartate molecules as nitrogen sources. The reactants in the formation of carbamoyl phosphate are ammonium ion, water, and carbon dioxide. The desired product of the urea cycle is urea.

There are 20 standard amino acids. Each amino acid has a different carbon skeleton and has a different degradation pathway for its carbon skeleton.

(b)

Expert Solution
Check Mark

Answer to Problem 26.116EP

B vitamin thiamin is involved as a cofactor in carbon skeleton degradation to non-CAC intermediates.

Explanation of Solution

Coenzyme thiamin pyrophosphate (TPP) contains the B vitamin thiamin in its structure.

Thiamin pyrophosphate (TPP) is also involved in the carbon skeleton degradation pathway to non-CAC intermediates. An overview of the B vitamin participations in the degradation pathways for the carbon skeletons of the 20 standard amino acids is as follows:

General, Organic, and Biological Chemistry, Chapter 26, Problem 26.116EP , additional homework tip 2

(c)

Interpretation Introduction

Interpretation:

To indicate whether B vitamin pantothenic is involved as a cofactor in the processes of (1) transamination, (2) oxidative deamination, (3) urea cycle, (4) carbon skeleton degradation to CAC intermediates, or (5) carbon skeleton degradation to non-CAC intermediates.

Concept introduction:

Cofactors are non-protein organic compounds that are used along with the enzymes and help to carry forward the reaction. The coenzymes containing B-vitamin serve as temporary carriers of atoms or functional groups in the redox and group transfer reactions associated with the metabolism of ingested food in order to obtain energy from the food.

Transamination reaction is a biochemical reaction that involves the transfer of an amino group. In transamination reaction exchange of an amino group from an α-amino acid with a keto group of α-keto acid. There occurs no net loss or gain of amino acid in transamination reaction.

A biochemical reaction in which an α-amino acid is converted into α-keto acid along with the release of an ammonium ion is known as oxidative deamination reaction.

A urea cycle is a cyclic biochemical pathway that involves the production of urea using ammonium ions and aspartate molecules as nitrogen sources. The reactants in the formation of carbamoyl phosphate are ammonium ion, water, and carbon dioxide. The desired product of the urea cycle is urea.

There are 20 standard amino acids. Each amino acid has a different carbon skeleton and has a different degradation pathway for its carbon skeleton.

(c)

Expert Solution
Check Mark

Answer to Problem 26.116EP

B vitamin pantothenic acid is involved as a cofactor in carbon skeleton degradation to non-CAC and CAC intermediates.

Explanation of Solution

Coenzyme A (CoA) contains the B vitamin pantothenic acid in its structure.

Coenzyme A (CoA) is also involved in the carbon skeleton degradation pathway to non-CAC and CAC intermediates. An overview of the B vitamin participations in the degradation pathways for the carbon skeletons of the 20 standard amino acids is as follows:

General, Organic, and Biological Chemistry, Chapter 26, Problem 26.116EP , additional homework tip 3

(d)

Interpretation Introduction

Interpretation:

To indicate whether B vitamin vitamin B12 is involved as a cofactor in the processes of (1) transamination, (2) oxidative deamination, (3) urea cycle, (4) carbon skeleton degradation to CAC intermediates, or (5) carbon skeleton degradation to non-CAC intermediates.

Concept introduction:

Cofactors are non-protein organic compounds that are used along with the enzymes and help to carry forward the reaction. The coenzymes containing B-vitamin serve as temporary carriers of atoms or functional groups in the redox and group transfer reactions associated with the metabolism of ingested food in order to obtain energy from the food.

Transamination reaction is a biochemical reaction that involves the transfer of an amino group. In transamination reaction exchange of an amino group from an α-amino acid with a keto group of α-keto acid. There occurs no net loss or gain of amino acid in transamination reaction.

A biochemical reaction in which an α-amino acid is converted into α-keto acid along with the release of an ammonium ion is known as oxidative deamination reaction.

A urea cycle is a cyclic biochemical pathway that involves the production of urea using ammonium ions and aspartate molecules as nitrogen sources. The reactants in the formation of carbamoyl phosphate are ammonium ion, water, and carbon dioxide. The desired product of the urea cycle is urea.

There are 20 standard amino acids. Each amino acid has a different carbon skeleton and has a different degradation pathway for its carbon skeleton.

(d)

Expert Solution
Check Mark

Answer to Problem 26.116EP

Vitamin B12 is involved as a cofactor in transamination reaction, carbon skeleton degradation to CAC intermediates.

Explanation of Solution

Coenzyme methylcobalamin contains the B vitamin vitamin B12 in its structure.

Coenzyme methylcobalamin is involved in the carbon skeleton degradation pathway to CAC intermediates.

An overview of the B vitamin participations in the degradation pathways for the carbon skeletons of the 20 standard amino acids is as follows:

General, Organic, and Biological Chemistry, Chapter 26, Problem 26.116EP , additional homework tip 4

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Chapter 26, Problem 26.115EP
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Chapter 26 Solutions

General, Organic, and Biological Chemistry

Ch. 26.1 - Which of the following statements about dietary...Ch. 26.1 - Dietary protein materials as they leave the...Ch. 26.1 - The inactive form of pepsin is converted to its...Ch. 26.1 - Which of the following is not a proteolytic...Ch. 26.2 - The dominant use for the amino acids of the amino...Ch. 26.2 - The most abundant amino acid in the amino acid...Ch. 26.2 - Prob. 3QQCh. 26.3 - Prob. 1QQCh. 26.3 - Prob. 2QQCh. 26.3 - The net effect of transamination is to collect the...
Ch. 26.3 - Prob. 4QQCh. 26.3 - Prob. 5QQCh. 26.3 - Most aminotransferases are specific for the keto...Ch. 26.4 - Which of the following statements concerning the...Ch. 26.4 - Prob. 2QQCh. 26.4 - The two fuels for the urea cycle are a. carbamoyl...Ch. 26.4 - Prob. 4QQCh. 26.4 - Prob. 5QQCh. 26.4 - Prob. 6QQCh. 26.5 - Which of the following statements concerning the...Ch. 26.5 - Prob. 2QQCh. 26.5 - Prob. 3QQCh. 26.5 - Prob. 4QQCh. 26.6 - Prob. 1QQCh. 26.6 - How many of the standard amino acids are...Ch. 26.6 - The simplest pathways for amino acid biosynthesis...Ch. 26.7 - Prob. 1QQCh. 26.7 - Which of the following statements concerning the...Ch. 26.7 - Prob. 3QQCh. 26.7 - In the degradation of heme, the iron atom present...Ch. 26.8 - In degradation of the sulfur-containing amino acid...Ch. 26.8 - Prob. 2QQCh. 26.8 - Prob. 3QQCh. 26.8 - Prob. 4QQCh. 26.9 - Prob. 1QQCh. 26.9 - Prob. 2QQCh. 26.9 - Prob. 3QQCh. 26.10 - Prob. 1QQCh. 26.10 - Prob. 2QQCh. 26.10 - Prob. 3QQCh. 26 - Prob. 26.1EPCh. 26 - Indicate whether each of the following aspects of...Ch. 26 - Indicate whether each of the following pairings of...Ch. 26 - Indicate whether each of the following pairings of...Ch. 26 - Indicate whether each of the following statements...Ch. 26 - Prob. 26.6EPCh. 26 - Prob. 26.7EPCh. 26 - Prob. 26.8EPCh. 26 - Prob. 26.9EPCh. 26 - Prob. 26.10EPCh. 26 - Prob. 26.11EPCh. 26 - Prob. 26.12EPCh. 26 - Prob. 26.13EPCh. 26 - Prob. 26.14EPCh. 26 - Indicate whether each of the following situations...Ch. 26 - Indicate whether each of the following situations...Ch. 26 - Prob. 26.17EPCh. 26 - Prob. 26.18EPCh. 26 - Prob. 26.19EPCh. 26 - Prob. 26.20EPCh. 26 - Prob. 26.21EPCh. 26 - Prob. 26.22EPCh. 26 - Prob. 26.23EPCh. 26 - Prob. 26.24EPCh. 26 - Prob. 26.25EPCh. 26 - Prob. 26.26EPCh. 26 - Prob. 26.27EPCh. 26 - Prob. 26.28EPCh. 26 - Prob. 26.29EPCh. 26 - Prob. 26.30EPCh. 26 - Prob. 26.31EPCh. 26 - Prob. 26.32EPCh. 26 - Prob. 26.33EPCh. 26 - Prob. 26.34EPCh. 26 - Prob. 26.35EPCh. 26 - Prob. 26.36EPCh. 26 - Prob. 26.37EPCh. 26 - Prob. 26.38EPCh. 26 - Prob. 26.39EPCh. 26 - Prob. 26.40EPCh. 26 - Prob. 26.41EPCh. 26 - Prob. 26.42EPCh. 26 - Prob. 26.43EPCh. 26 - Draw the structure of the -keto acid produced from...Ch. 26 - Prob. 26.45EPCh. 26 - Prob. 26.46EPCh. 26 - Prob. 26.47EPCh. 26 - Prob. 26.48EPCh. 26 - Prob. 26.49EPCh. 26 - Prob. 26.50EPCh. 26 - Prob. 26.51EPCh. 26 - Prob. 26.52EPCh. 26 - Prob. 26.53EPCh. 26 - Prob. 26.54EPCh. 26 - Prob. 26.55EPCh. 26 - Prob. 26.56EPCh. 26 - Prob. 26.57EPCh. 26 - Prob. 26.58EPCh. 26 - Prob. 26.59EPCh. 26 - Prob. 26.60EPCh. 26 - Prob. 26.61EPCh. 26 - Prob. 26.62EPCh. 26 - Prob. 26.63EPCh. 26 - Prob. 26.64EPCh. 26 - Prob. 26.65EPCh. 26 - Prob. 26.66EPCh. 26 - Prob. 26.67EPCh. 26 - Prob. 26.68EPCh. 26 - Prob. 26.69EPCh. 26 - Prob. 26.70EPCh. 26 - Prob. 26.71EPCh. 26 - Prob. 26.72EPCh. 26 - Prob. 26.73EPCh. 26 - Prob. 26.74EPCh. 26 - Prob. 26.75EPCh. 26 - Prob. 26.76EPCh. 26 - Prob. 26.77EPCh. 26 - Prob. 26.78EPCh. 26 - Prob. 26.79EPCh. 26 - Prob. 26.80EPCh. 26 - Prob. 26.81EPCh. 26 - Prob. 26.82EPCh. 26 - Prob. 26.83EPCh. 26 - Prob. 26.84EPCh. 26 - Prob. 26.85EPCh. 26 - Prob. 26.86EPCh. 26 - Prob. 26.87EPCh. 26 - Prob. 26.88EPCh. 26 - Prob. 26.89EPCh. 26 - Prob. 26.90EPCh. 26 - Prob. 26.91EPCh. 26 - Prob. 26.92EPCh. 26 - Prob. 26.93EPCh. 26 - Prob. 26.94EPCh. 26 - Prob. 26.95EPCh. 26 - Prob. 26.96EPCh. 26 - Prob. 26.97EPCh. 26 - Which bile pigment is responsible for the...Ch. 26 - Prob. 26.99EPCh. 26 - Prob. 26.100EPCh. 26 - Prob. 26.101EPCh. 26 - Prob. 26.102EPCh. 26 - Prob. 26.103EPCh. 26 - Prob. 26.104EPCh. 26 - Prob. 26.105EPCh. 26 - Prob. 26.106EPCh. 26 - Prob. 26.107EPCh. 26 - Prob. 26.108EPCh. 26 - Prob. 26.109EPCh. 26 - Prob. 26.110EPCh. 26 - Prob. 26.111EPCh. 26 - Prob. 26.112EPCh. 26 - Prob. 26.113EPCh. 26 - Prob. 26.114EPCh. 26 - Prob. 26.115EPCh. 26 - Prob. 26.116EP
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