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Chemistry

9th Edition
Steven S. Zumdahl
ISBN: 9781133611097

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BuyFindarrow_forward

Chemistry

9th Edition
Steven S. Zumdahl
ISBN: 9781133611097
Textbook Problem

Give an example of amino acids that could give rise to the interactions pictured in Fig. 21-24 that maintain the tertiary structures of proteins.

Interpretation Introduction

Interpretation: The amino acids that could give rise to the interactions pictured in Figure 2124 that maintains the tertiary structures of proteins are to be named.

Concept introduction: Amino acids bind together to form large chain molecules of high molecular masses known as proteins. Aliphatic and aromatic amino acids are non-polar in nature and interact mainly by hydrophobic interactions and vanderwaals forces. Amino acids which are acidic and basic in nature interact through charge-charge interactions and ionic bonds as they are charged molecules and those contain functional groups also interact through hydrogen bonding as they are polarized. These interactions are useful to maintain the tertiary structure of proteins. The types of interactions pictured in Figure 2124 to maintain the tertiary structures of proteins are; ionic interaction, hydrogen bonding interaction, covalent interaction, London dispersion forces and dipole-dipole interactions.

To determine: The amino acids that could give rise to the interactions pictured in Figure 2124 that maintains the tertiary structures of proteins.

Explanation

Explanation

The examples of amino acids that have ionic interactions are lysine and aspartic acid. Ionic interactions involve the electrostatic interaction between oppositely charged ions. Lysine is a base with a chemical formula C6H14N2O2 containing an unoccupied pair of electron on the nitrogen atom of the amino NH2 group and aspartic acid with a chemical formula C4H7NO4 has an acidic side chain. As they both contain oppositely charged ions they bonded through ionic interactions.

The examples of amino acids that have hydrogen bonding interactions are stated below.

The examples of amino acids that have hydrogen bonding interactions are,

Serine and asparagine

Serine and aspartic acid

Tyrosine and aspartic acid

The amino acids serine and tyrosine have hydroxyl groups in their molecule and asparagine and aspartic acid have an amide group

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Chapter 22 Solutions

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Ch-22 P-11RQCh-22 P-12RQCh-22 P-1QCh-22 P-2QCh-22 P-3QCh-22 P-4QCh-22 P-5QCh-22 P-6QCh-22 P-7QCh-22 P-8QCh-22 P-9QCh-22 P-10QCh-22 P-11QCh-22 P-12QCh-22 P-13ECh-22 P-14ECh-22 P-15ECh-22 P-16ECh-22 P-17ECh-22 P-18ECh-22 P-19ECh-22 P-20ECh-22 P-21ECh-22 P-22ECh-22 P-23ECh-22 P-24ECh-22 P-25ECh-22 P-26ECh-22 P-27ECh-22 P-28ECh-22 P-29ECh-22 P-30ECh-22 P-31ECh-22 P-32ECh-22 P-33ECh-22 P-34ECh-22 P-35ECh-22 P-36ECh-22 P-37ECh-22 P-38ECh-22 P-39ECh-22 P-40ECh-22 P-41ECh-22 P-42ECh-22 P-43ECh-22 P-44ECh-22 P-45ECh-22 P-46ECh-22 P-47ECh-22 P-48ECh-22 P-49ECh-22 P-50ECh-22 P-51ECh-22 P-52ECh-22 P-53ECh-22 P-54ECh-22 P-55ECh-22 P-56ECh-22 P-57ECh-22 P-58ECh-22 P-59ECh-22 P-60ECh-22 P-61ECh-22 P-62ECh-22 P-63ECh-22 P-64ECh-22 P-65ECh-22 P-66ECh-22 P-67ECh-22 P-68ECh-22 P-69ECh-22 P-70ECh-22 P-71ECh-22 P-72ECh-22 P-73ECh-22 P-74ECh-22 P-75ECh-22 P-76ECh-22 P-77ECh-22 P-78ECh-22 P-79ECh-22 P-80ECh-22 P-81ECh-22 P-82ECh-22 P-83ECh-22 P-84ECh-22 P-85ECh-22 P-86ECh-22 P-87ECh-22 P-88ECh-22 P-89ECh-22 P-90ECh-22 P-91ECh-22 P-92ECh-22 P-93ECh-22 P-94ECh-22 P-95ECh-22 P-96ECh-22 P-97ECh-22 P-98ECh-22 P-99ECh-22 P-100ECh-22 P-101ECh-22 P-102ECh-22 P-103ECh-22 P-104ECh-22 P-105ECh-22 P-106ECh-22 P-107ECh-22 P-108ECh-22 P-109ECh-22 P-110ECh-22 P-111AECh-22 P-112AECh-22 P-113AECh-22 P-114AECh-22 P-115AECh-22 P-116AECh-22 P-117AECh-22 P-118AECh-22 P-119AECh-22 P-120AECh-22 P-121AECh-22 P-122AECh-22 P-123AECh-22 P-124AECh-22 P-125AECh-22 P-126AECh-22 P-127AECh-22 P-128AECh-22 P-129AECh-22 P-130AECh-22 P-131AECh-22 P-132AECh-22 P-133AECh-22 P-134AECh-22 P-135AECh-22 P-136AECh-22 P-137CWPCh-22 P-138CWPCh-22 P-139CWPCh-22 P-140CWPCh-22 P-141CWPCh-22 P-142CWPCh-22 P-143CWPCh-22 P-144CWPCh-22 P-145CPCh-22 P-146CPCh-22 P-147CPCh-22 P-148CPCh-22 P-149CPCh-22 P-150CPCh-22 P-151CPCh-22 P-152CPCh-22 P-153CPCh-22 P-154CPCh-22 P-155CPCh-22 P-156CPCh-22 P-157CPCh-22 P-158CPCh-22 P-159IPCh-22 P-160IPCh-22 P-161MPCh-22 P-162MP

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