Study Guide for Campbell Biology
11th Edition
ISBN: 9780134443775
Author: Lisa A. Urry, Michael L. Cain, Steven A. Wasserman, Peter V. Minorsky, Jane B. Reece, Martha R. Taylor, Michael A. Pollock
Publisher: PEARSON
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Textbook Question
Chapter 4, Problem 1SYK
Construct a concept map that illustrates your understanding of the characteristics and significance of the three types of isomers. A suggested map is in the answer section. Comparing and discussing your map with that of a study partner would be most helpful.
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Consider the tripeptide phenylalanylcysteyl methionine.
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Draw the structure of this tripeptide at physiological pH.
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In a tabulated form enumerate and draw the functional groups, give examples of biological compound having this functional group and identify its biochemical importance
Functional Groups and Structure
Examples Biological compound and its structure
Biological Importance
Identify ALL the CORRECT statements regarding the compound shown below. SELECT ALL THAT APPLY
A. The compound is a heterocycle
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Chapter 4 Solutions
Study Guide for Campbell Biology
Ch. 4 - How did Millers classic experiment relate to the...Ch. 4 - Define structural isomers, cis-trans isomers, and...Ch. 4 - Practice recognizing the functional groups by...Ch. 4 - Construct a concept map that illustrates your...Ch. 4 - Fill in the following table to review the...Ch. 4 - Carbons valence of four most directly results from...Ch. 4 - Prob. 2TYKCh. 4 - Hydrocarbons are not soluble in water because a....Ch. 4 - Prob. 4TYKCh. 4 - Which of the following is not true of an...
Ch. 4 - Enantiomers are a. molecules that are mirror...Ch. 4 - Which statement is not true about structural...Ch. 4 - Prob. 8TYKCh. 4 - The orbitals of a carbon atom form a(n) a....Ch. 4 - The following ribose molecule contains how many...Ch. 4 - Cis-trans isomers require a. highly polar...Ch. 4 - The chemical group that can cause an organic...Ch. 4 - The chemical group that confers acidic properties...Ch. 4 - Structural isomersCh. 4 - Prob. 2TYKMCh. 4 - can have enantiomersCh. 4 - carboxylic acidCh. 4 - can make cross-link in proteinCh. 4 - hydrophilicCh. 4 - hydrocarbonCh. 4 - amino acidCh. 4 - organic phosphateCh. 4 - aldehydeCh. 4 - amineCh. 4 - ketone
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- Now consider alanine as a whole molecule. Use the Ką values from the chart above, and your understanding of the relationships among Ka, pH, and charge to select the predominant form of alanine that would exist at the pH indicated below. Note some choices may not be used and some may be used more than once. А. CH3 В. CH3 С. CH3 NH3+ C COOH NH2 COOH NH2 CO- - - H H D. CH3 Е. CH2- F. CH2- NH3+ C CO- NH2 CO- NH2 СООН H H H pH = 1 A pH = 5 D pH = 7 pH = 11 C >arrow_forwardConsider the given data (Solubility Tests, Solubility Group, Chemical Tests, and Functional Group) in the experiment. Based on the results of the solubility tests and chemical tests, what is the most probable structure of C4H6O2? Draw your answer. You may draw the compound using line-bond formula OR Lewis structure.arrow_forwardNow consider alanine as a whole molecule. Use the Ka values from the chart above, and your understanding of the relationships among Ka, pH, and charge to select the predominant form of alanine that would exist at the pH indicated below. Note some choices may not be used and some may be used more than once. А. CH3 В. CH3 С. CH3 NH3+ C СООН NH2 C COOH NH2 C CO- - H H. D. CH3 Е. CH2- F. CH2- NH3+ - C СО- NH2 CO- NH2 СООН - C - H H. pH = 1 [ Choose ] pH = 5 [ Choose ] pH = 7 [ Choose ] pH = 11 [ Choose ] > > >arrow_forward
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