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Molecular and Cellular Mechanisms of Mutagenesis

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Cover of 'Molecular and Cellular Mechanisms of Mutagenesis'

Table of Contents

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    Book Overview
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    Chapter 1 Mutagenesis from a Chemical Perspective: Nucleic Acid Reactions, Repair, Translation, and Transcription
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    Chapter 2 Regulation and functions of Escherichia coli genes induced by DNA damage.
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    Chapter 3 Methylation-Instructed Mismatch Correction as a Postreplication Error Avoidance Mechanism in Escherichia Coli
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    Chapter 4 Cellular Defense Mechanisms Against Alkylation of DNA
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    Chapter 5 Cellular Responses to Mutagenic Agents: A Summary and Perspective
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    Chapter 6 Mechanisms of UV Mutagenesis in Yeast
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    Chapter 7 Site-Specific Mutagenesis:: A New Approach for Studying the Molecular Mechanisms of Mutation by Carcinogens
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    Chapter 8 Single-stranded gaps as localized targets for in vitro mutagenesis.
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    Chapter 9 Mutagenesis at Specific Sites: A Summary and Perspective
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    Chapter 10 Polymerase Infidelity and Frameshift Mutation
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    Chapter 11 In Vitro Replication of Mutagen-Damaged DNA: Sites of Termination
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    Chapter 12 Depurination of DNA as a possible mutagenic pathway for cells.
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    Chapter 13 Passive Polymerase Control of DNA Replication Fidelity: Evidence Against Unfavored Tautomer Involvement in 2-Aminopurine-Induced Base-Transition Mutations
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    Chapter 14 Mutators, Antimutators, and DNA Replication Errors: A Summary and Perspective
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    Chapter 15 Low Level and High Level DNA Rearrangements in Escherichia coli
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    Chapter 16 Mutants of Escherichia coli K12 which Affect Excision of Transposon TN10
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    Chapter 17 Gene Conversion: A Possible Mechanism for Eliminating Selfish DNA
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    Chapter 18 Transposons and Illegitimate Recombination in Prokaryotes: A Summary and Perspective
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    Chapter 19 Mutagenesis and Repair in Yeast Mitochondrial DNA
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    Chapter 20 Alterations in Chromatin Structure During DNA Excision Repair
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    Chapter 21 New approaches to DNA damage and repair: the ultraviolet light example.
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    Chapter 22 Chromosomal and Nonchromosomal DNA: A Summary and Perspective
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    Chapter 23 Comparison of the Induction of Specific Locus Mutations in Wild-Type and Repair-Deficient Strains of Neurospora Crassa
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    Chapter 24 Mammalian Mutagenesis: Future Directions
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    Chapter 25 Perspectives in Molecular Mutagenesis
Attention for Chapter 8: Single-stranded gaps as localized targets for in vitro mutagenesis.
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Chapter title
Single-stranded gaps as localized targets for in vitro mutagenesis.
Chapter number 8
Book title
Molecular and Cellular Mechanisms of Mutagenesis
Published in
Basic life sciences, January 1982
DOI 10.1007/978-1-4613-3476-7_8
Pubmed ID
6287991
Book ISBNs
978-1-4613-3478-1, 978-1-4613-3476-7
Authors

David Shortle, David Botstein, Shortle, David, Botstein, David

Abstract

Short single-stranded gaps in circular DNA molecules can be generated enzymatically, often at predetermined sites. These can serve as targets for in vitro mutagenesis procedures that result in alterations in nucleotide sequence within or very near the gap. Deamination of unpaired cytosine residues with sodium bisulfite has been used to induce mutations in the BglI restriction site of SV40 DNA and within defined regions of the beta-lactamase gene on pBR322. A new method of induction of mutations at gaps, called "gap misrepair," has been developed; it was used to cause changes at the HindIII and C1aI restriction sites on pBR322 DNA. Gap misrepair reactions using DNA polymerase I of Micrococcus luteus in the presence of T4 DNA ligase and three of the four deoxynucleoside triphosphates yielded all three possible substitutions for adenine and cytosine residues in the DNA.

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Mendeley readers

The data shown below were compiled from readership statistics for 3 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country Count As %
Unknown 3 100%

Demographic breakdown

Readers by professional status Count As %
Professor > Associate Professor 1 33%
Student > Bachelor 1 33%
Lecturer 1 33%
Readers by discipline Count As %
Biochemistry, Genetics and Molecular Biology 2 67%
Agricultural and Biological Sciences 1 33%

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