Textbook Question
How were scientists able to determine that DNA, and not some other molecule, serves as the genetic material in bacteria and bacteriophages?
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Ch. 9 - DNA Structure and Analysis
Klug10th EditionEssentials of GeneticsISBN: 9780135588789
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Table of contents
- Ch. 1 - Introduction to Genetics16
- Ch. 2 - Mitosis and Meiosis28
- Ch. 3 - Mendelian Genetics37
- Ch. 4 - Modification of Mendelian Ratios53
- Ch. 5 - Sex Determination and Sex Chromosomes32
- Ch. 6 - Chromosome Mutations: Variation in Number and Arrangement37
- Ch. 7 - Linkage and Chromosome Mapping in Eukaryotes36
- Ch. 8 - Genetic Analysis and Mapping in Bacteria and Bacteriophages24
- Ch. 9 - DNA Structure and Analysis38
- Ch. 10 - DNA Replication29
- Ch. 11 - Chromosome Structure and DNA Sequence Organization22
- Ch. 12 - The Genetic Code and Transcription36
- Ch. 13 - Translation and Proteins27
- Ch. 14 - Gene Mutation, DNA Repair, and Transposition34
- Ch. 15 - Regulation of Gene Expression in Bacteria22
- Ch. 16 - Regulation of Gene Expression in Eukaryotes37
- Ch. 17 - Recombinant DNA Technology27
- Ch. 18 - Genomics, Bioinformatics, and Proteomics30
- Ch. 19 - The Genetics of Cancer21
- Ch. 20 - Quantitative Genetics and Multifactorial Traits37
- Ch. 21 - Population and Evolutionary Genetics45
Chapter 9, Problem 1c
How do we know that G pairs with C and that A pairs with T as complementary base pairs are formed?
Verified step by step guidance1
Understand the chemical structure of the four DNA bases: adenine (A), thymine (T), guanine (G), and cytosine (C). Each base has specific sites capable of forming hydrogen bonds.
Examine the hydrogen bonding patterns: A and T form two hydrogen bonds, while G and C form three hydrogen bonds. This difference in bonding strength contributes to the specificity of base pairing.
Consider the molecular shapes and sizes: purines (A and G) are larger, double-ring structures, and pyrimidines (T and C) are smaller, single-ring structures. Complementary base pairs consist of one purine and one pyrimidine, maintaining a uniform width of the DNA double helix.
Review experimental evidence such as Chargaff's rules, which show that the amount of adenine equals thymine and the amount of guanine equals cytosine in DNA, supporting the complementary pairing concept.
Look at X-ray crystallography data of DNA, which reveals the spatial arrangement of bases and confirms that A pairs with T and G pairs with C through specific hydrogen bonding, stabilizing the double helix structure.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Base Pairing Rules
Base pairing rules describe how nucleotides pair specifically in DNA: adenine (A) pairs with thymine (T), and guanine (G) pairs with cytosine (C). This specificity is due to the hydrogen bonding patterns and molecular structures, ensuring accurate DNA replication and stable double helix formation.
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Chargaff's Rules
Chargaff's rules state that in DNA, the amount of adenine equals thymine, and the amount of guanine equals cytosine. This empirical observation provided key evidence for complementary base pairing, showing a consistent 1:1 ratio between these bases across different species.
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X-ray Crystallography of DNA
X-ray crystallography provided detailed images of DNA's structure, revealing the double helix and the specific pairing of bases. Rosalind Franklin's X-ray diffraction patterns helped Watson and Crick deduce that A pairs with T and G pairs with C, based on the molecular dimensions and hydrogen bonding.
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Related Practice
Textbook Question
How was it determined that the structure of DNA is a double helix with the two strands held together by hydrogen bonds formed between complementary nitrogenous bases?
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Textbook Question
Most center around DNA and RNA and their role of serving as the genetic material. Write a short essay that contrasts these molecules, including a comparison of advantages conferred by their structure that each of them has over the other in serving in this role.
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Textbook Question
Discuss the reasons proteins were generally favored over DNA as the genetic material before 1940. What was the role of the tetranucleotide hypothesis in this controversy?
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Textbook Question
Contrast the contributions made to an understanding of transformation by Griffith and by Avery and his colleagues.
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