Chemistry: An Introduction to General, Organic, and Biological Chemistry (12th Edition) - Standalone book
Chemistry: An Introduction to General, Organic, and Biological Chemistry (12th Edition) - Standalone book
12th Edition
ISBN: 9780321908445
Author: Karen C. Timberlake
Publisher: PEARSON
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Chapter 18, Problem 18.71UTC
Interpretation Introduction

To determine:

Condensed structural formula for activated lauric acid

Expert Solution
Check Mark

Explanation of Solution

The condensed structural formula is an easier way to explain the structure of any molecule as it draws lines between group of atoms attached together and do not draw all the bonds.

Hence, the condensed structural formula for the activated acrylic acid is given as follows:

Chemistry: An Introduction to General, Organic, and Biological Chemistry (12th Edition) - Standalone book, Chapter 18, Problem 18.71UTC , additional homework tip 1

Interpretation Introduction

To determine:

Alpha and beta carbon atom in lauroyl- CoA

Expert Solution
Check Mark

Explanation of Solution

The alpha and beta positions are determined from adjacent to the functional group. Here, the functional group is carbonyl carbon from where the adjacent carbon will be alpha and next will be beta carbon. So, the αandβ -carbon atoms in lauroyl-CoA is

Chemistry: An Introduction to General, Organic, and Biological Chemistry (12th Edition) - Standalone book, Chapter 18, Problem 18.71UTC , additional homework tip 2

Interpretation Introduction

To determine:

Expert Solution
Check Mark

Explanation of Solution

The number of beta oxidation cycle for the complete oxidation of lauric acid.

Beta oxidation is a process where the fatty acid is degraded or broken down from its beta carbon position.

Hence, the number of beta oxidation cycles required depends upon the number of carbon atoms present in the acid molecule.

Every two carbon atoms in any acid will produce one acetyl CoA molecule, so when the lauric acid has 12 carbon atoms, it will produce a total of six acetyl CoA molecules.

Further, the number of beta oxidation cycle is considered as one number less than the number of acetyl CoA produced.

Hence, the beta oxidation cycles will be five.

Interpretation Introduction

To determine:

Expert Solution
Check Mark

Explanation of Solution

The number of acetyl CoA produced from the complete oxidation of lauric acid.

Beta oxidation is a process where the fatty acid is degraded or broken down from its beta carbon position.

Hence, the number of acetyl CoA produced depends upon the number of carbon atoms present in the acid molecule.

Every two carbon atoms in any acid will produce one acetyl CoA molecule, so when the lauric acid has 12 carbon atoms, it will produce a total of six acetyl CoA molecules.

Interpretation Introduction

To determine:

Total ATP yield from the given table:

Chemistry: An Introduction to General, Organic, and Biological Chemistry (12th Edition) - Standalone book, Chapter 18, Problem 18.71UTC , additional homework tip 3

Expert Solution
Check Mark

Explanation of Solution

Lauric Acid is a C12 fatty acid and for the activation of lauric acid 2 ATP are required.

The acetyl group of the acetyl CoA is formed by two carbons. And in the last round two acetyl CoA are produced. Accordingly, the number of cycles of ß-oxidation and the number of acetyl CoA produced has been calculated.

From the complete ß-oxidation of lauric acid, total six (6) acetyl CoA, 5 NADH and 6 FADH2 has been produced. Each Acetyl CoA yields 10 ATP, each NADH yields 2.5 ATP and each FADH2 yields 1.5 ATP. Accordingly, ATP yield has been calculated.

Formula used: Number of cycles of ß-oxidation needed for the complete oxidation of fatty acid = n2-1

Where n = Number of carbon atoms present in fatty acid.

Number of acetyl CoA produced from the complete oxidation of fatty acid = n2

Where n = Number of carbon atoms present in fatty acid.

Calculation: Here, number of carbon atoms in the given fatty acid = 12. So, by putting n = 12
Number of cycles of ß-oxidation needed for the complete oxidation of fatty acid = 122-1=5

Therefore, number of acetyl CoA produced from the complete oxidation of fatty acid =

  122=6

    Activation

    		-2 ATP
    Acetyl CoA

      6×10 ATP/Acetyl CoA     		60ATP
    NADH

      5×2.5 ATP/NADH     		12.5 ATP
    FADH2

      5×1.5 ATP/ FADH2     		7.5 ATP
    Total

    		78 ATP
Conclusion

Chemistry: An Introduction to General, Organic, and Biological Chemistry (12th Edition) - Standalone book, Chapter 18, Problem 18.71UTC , additional homework tip 4


  αandβ

  1. -carbon atoms in lauroyl-CoA is:

Chemistry: An Introduction to General, Organic, and Biological Chemistry (12th Edition) - Standalone book, Chapter 18, Problem 18.71UTC , additional homework tip 5

  1. The number of beta oxidation cycle for complete oxidation of lauric acid will be five.
  2. The number of acetyl CoA produced from the complete oxidation of lauric acid will be six.
    Activation

    		-2 ATP
    Acetyl CoA

      6×10 ATP/Acetyl CoA     		60ATP
    NADH

      5×2.5 ATP/NADH     		12.5 ATP
    FADH2

      5×1.5 ATP/ FADH2     		7.5 ATP
    Total

    		78 ATP

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Chapter 18 Solutions

Chemistry: An Introduction to General, Organic, and Biological Chemistry (12th Edition) - Standalone book

Ch. 18.1 - Prob. 18.1QAPCh. 18.1 - Prob. 18.2QAPCh. 18.1 - Prob. 18.3QAPCh. 18.1 - Prob. 18.4QAPCh. 18.1 - Prob. 18.5QAPCh. 18.1 - Prob. 18.6QAPCh. 18.2 - Prob. 18.7QAPCh. 18.2 - Prob. 18.8QAPCh. 18.2 - Prob. 18.9QAPCh. 18.2 - Prob. 18.10QAP
Ch. 18.2 - Prob. 18.11QAPCh. 18.2 - Prob. 18.12QAPCh. 18.3 - Prob. 18.13QAPCh. 18.3 - Prob. 18.14QAPCh. 18.3 - Prob. 18.15QAPCh. 18.3 - Prob. 18.16QAPCh. 18.4 - Prob. 18.17QAPCh. 18.4 - Prob. 18.18QAPCh. 18.4 - Prob. 18.19QAPCh. 18.4 - Prob. 18.20QAPCh. 18.4 - Prob. 18.21QAPCh. 18.4 - Prob. 18.22QAPCh. 18.4 - Prob. 18.23QAPCh. 18.4 - Prob. 18.24QAPCh. 18.4 - Prob. 18.25QAPCh. 18.4 - Prob. 18.26QAPCh. 18.4 - Prob. 18.27QAPCh. 18.4 - Prob. 18.28QAPCh. 18.4 - Prob. 18.29QAPCh. 18.4 - Prob. 18.30QAPCh. 18.5 - Prob. 18.31QAPCh. 18.5 - Prob. 18.32QAPCh. 18.5 - Prob. 18.33QAPCh. 18.5 - Prob. 18.34QAPCh. 18.5 - Prob. 18.35QAPCh. 18.5 - Prob. 18.36QAPCh. 18.5 - Prob. 18.37QAPCh. 18.5 - Prob. 18.38QAPCh. 18.5 - Prob. 18.39QAPCh. 18.5 - Prob. 18.40QAPCh. 18.6 - Prob. 18.41QAPCh. 18.6 - Prob. 18.42QAPCh. 18.6 - Prob. 18.43QAPCh. 18.6 - Prob. 18.44QAPCh. 18.6 - Prob. 18.45QAPCh. 18.6 - Prob. 18.46QAPCh. 18.6 - Prob. 18.47QAPCh. 18.6 - Prob. 18.48QAPCh. 18.6 - Prob. 18.49QAPCh. 18.6 - Prob. 18.50QAPCh. 18.6 - Prob. 18.51QAPCh. 18.6 - Prob. 18.52QAPCh. 18.6 - Prob. 18.53QAPCh. 18.6 - Prob. 18.54QAPCh. 18.7 - Prob. 18.55QAPCh. 18.7 - Prob. 18.56QAPCh. 18.7 - Prob. 18.57QAPCh. 18.7 - Prob. 18.58QAPCh. 18.7 - Prob. 18.59QAPCh. 18.7 - Prob. 18.60QAPCh. 18.7 - Prob. 18.61QAPCh. 18.7 - Prob. 18.62QAPCh. 18.7 - Prob. 18.63QAPCh. 18.7 - Prob. 18.64QAPCh. 18.8 - 18.65 Draw the condensed structural formula for...Ch. 18.8 - 18.66 Draw the condensed structural formula for...Ch. 18.8 - 18.67 Why does the body convert NH4+ to urea? Ch. 18.8 - Prob. 18.68QAPCh. 18.8 - Prob. 18.69QAPCh. 18.8 - Prob. 18.70QAPCh. 18 - Prob. 18.71UTCCh. 18 - Prob. 18.72UTCCh. 18 - Prob. 18.73UTCCh. 18 - Prob. 18.74UTCCh. 18 - Prob. 18.75AQAPCh. 18 - Prob. 18.76AQAPCh. 18 - Prob. 18.77AQAPCh. 18 - Prob. 18.78AQAPCh. 18 - Prob. 18.79AQAPCh. 18 - Prob. 18.80AQAPCh. 18 - Prob. 18.81AQAPCh. 18 - Prob. 18.82AQAPCh. 18 - Prob. 18.83AQAPCh. 18 - Prob. 18.84AQAPCh. 18 - Prob. 18.85AQAPCh. 18 - Prob. 18.86AQAPCh. 18 - Prob. 18.87AQAPCh. 18 - Prob. 18.88AQAPCh. 18 - Prob. 18.89AQAPCh. 18 - Prob. 18.90AQAPCh. 18 - Prob. 18.91CQCh. 18 - Prob. 18.92CQCh. 18 - Prob. 18.93CQCh. 18 - Prob. 18.94CQCh. 18 - Prob. 18.95CQCh. 18 - Prob. 18.96CQCh. 18 - Prob. 33CICh. 18 - Prob. 34CICh. 18 - Prob. 35CICh. 18 - Prob. 36CICh. 18 - Prob. 37CICh. 18 - Prob. 38CICh. 18 - Prob. 39CICh. 18 - Thalassemia is an inherited genetic mutation that...Ch. 18 - CI.34 In response to signals from the nervous...
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