Textbook Question
Identify the asymmetric carbon in this molecule:
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Ch. 4 - Carbon and the Molecular Diversity of Life
Urry12th EditionCampbell BiologyISBN: 9785794169850
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Table of contents
- Ch. 1 - Evolution, the Themes of Biology, and Scientific Inquiry8
- Ch. 2 - The Chemical Context of Life8
- Ch. 3 - Water and Life6
- Ch. 4 - Carbon and the Molecular Diversity of Life9
- Ch. 5 - The Structure and Function of Large Biological Molecules9
- Ch. 6 - A Tour of the Cell6
- Ch. 7 - Membrane Structure and Function6
- Ch. 8 - An Introduction to Metabolism6
- Ch. 9 - Cellular Respiration and Fermentation10
- Ch. 10 - Photosynthesis7
- Ch. 11 - Cell Communication7
- Ch. 12 - The Cell Cycle11
- Ch. 13 - Meiosis and Sexual Life Cycles10
- Ch. 14 - Mendel and the Gene Idea14
- Ch, 15 - The Chromosomal Basis of Inheritance6
- Ch. 16 - The Molecular Basis of Inheritance9
- Ch. 17 - Gene Expression: From Gene to Protein9
- Ch. 18 - Regulation of Gene Expression10
- Ch. 19 - Viruses6
- Ch. 20 - DNA Tools and Biotechnology7
- Ch. 21 - Genomes and Their Evolution8
- Ch. 22 - Descent with Modification: A Darwininan View of Life6
- Ch. 23 - The Evolution of Populations5
- Ch. 24 - The Origin of Species6
- Ch. 25 - The History of Life on Earth8
- Ch. 26 - Phylogeny and the Tree of Life8
- Ch. 27 - Bacteria and Archaea6
- Ch. 28 - Protists7
- Ch. 29 - Plant Diversity I: How Plants Colonized Land7
- Ch. 30 - Plant Diversity II: The Evolution of Seed Plants6
- Ch. 31 - Fungi5
- Ch. 32 - An Overview of Animal Diversity4
- Ch. 33 - An introduction to Invertebrates6
- Ch. 34 - The Origin and Evolution of Vertebrates7
- Ch. 35 - Vascular Plant Structure, Growth, and Development10
- Ch. 36 - Resource Acquisition and Transport in Vascular Plants8
- Ch. 37 - Soil and Plant Nutrition11
- Ch. 38 - Angiosperm Reproduction and Biotechnology8
- Ch. 39 - Plant Responses to Internal and External Signals8
- Ch. 40 - Basic Principles of Animal Form and Function8
- Ch. 41 - Animal Nutrition7
- Ch. 42 - Circulation and Gas Exchange7
- Ch. 43 - The Immune System5
- Ch. 44 - Osmoregulation and Excretion6
- Ch. 45 - Hormones and the Endocrine System8
- Ch. 46 - Animal Reproduction9
- Ch. 47 - Animal Development8
- Ch. 48 - Neurons, Synapses, and Signaling6
- Ch. 49 - Nervous Systems8
- Ch. 50 - Sensory and Motor Mechanisms5
- Ch. 51 Animal Behavior6
- Ch. 52 - An Introduction to Ecology and the Biosphere7
- Ch. 53 - Population Ecology9
- Ch. 54 - Community Ecology9
- Ch. 55 - Ecosystems and Restoration Ecology8
- Ch. 56 - Conservation Biology and Global Change6
Chapter 4, Problem 5
Choose the term that correctly describes the relationship between these two sugar molecules:
a. Structural isomers
b. Cis-trans isomers
c. Enantiomers
d. Isotopes
Verified step by step guidance1
Step 1: Begin by understanding the definitions of each term provided in the options. Structural isomers are molecules with the same molecular formula but different structural arrangements. Cis-trans isomers are a type of stereoisomerism where the same atoms are connected differently in space due to the presence of double bonds. Enantiomers are molecules that are mirror images of each other and cannot be superimposed. Isotopes are variants of a particular chemical element that differ in neutron number.
Step 2: Examine the sugar molecules in question. Look for differences in their structural arrangement, spatial orientation, or atomic composition. This will help you determine which type of isomerism or relationship they exhibit.
Step 3: Compare the molecular formulas of the two sugar molecules. If they have the same molecular formula but differ in structure, they might be structural isomers.
Step 4: Check for any double bonds in the sugar molecules. If present, analyze the spatial arrangement around these bonds to determine if they are cis-trans isomers.
Step 5: Consider the possibility of enantiomers by checking if the molecules are non-superimposable mirror images of each other. If the molecules differ in neutron number, they might be isotopes, but this is less likely for sugar molecules.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Structural Isomers
Structural isomers are molecules with the same molecular formula but different structural arrangements of atoms. This means they have different physical and chemical properties despite having the same number of each type of atom. Understanding structural isomers is crucial for identifying differences in molecular structure that affect function.
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Cis-Trans Isomers
Cis-trans isomers, also known as geometric isomers, occur due to the restricted rotation around a double bond or a ring structure. In these isomers, the same atoms or groups are positioned differently in space, either on the same side (cis) or opposite sides (trans) of the bond or ring, affecting the molecule's properties and reactivity.
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Enantiomers
Enantiomers are a type of stereoisomer where molecules are mirror images of each other but cannot be superimposed. They have identical physical properties except for their interaction with polarized light and reactions in chiral environments. Enantiomers are important in biology because they can have drastically different effects in biological systems.
Related Practice
Textbook Question
Which of the molecules shown in question 5 has an asymmetric carbon? Which carbon is asymmetric?
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Textbook Question
Which chemical group is most likely to be responsible for an organic molecule behaving as a base?
a. Hydroxyl
b. Carbonyl
c. Amino
d. Phosphate
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Textbook Question
Visualize the structural formula of each of the following hydrocarbons. Which hydrocarbon has a double bond in its carbon skeleton?
a. C3H8
b. C₂H₆
c. C₂H₄
d. C₂H₂
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1
rank
Textbook Question
Which functional group is present in this molecule?
A.sulfhydryl
B.carboxyl
C.methyl
D.phosphate
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Textbook Question
Which action could produce a carbonyl group?
a. The replacement of the —OH of a carboxyl group with hydrogen
b. The addition of a thiol to a hydroxyl
c. The addition of a hydroxyl to a phosphate
d. The replacement of the nitrogen of an amine with oxygen
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