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Fundamentals of Molecular Evolution, Second Edition

Dan Graur, University of Houston, and Wen-Hsiung Li, University of Chicago

2000
439 pages, 200 illustrations
paper

About This Title

This book describes the dynamics of evolutionary change at the molecular level, the driving forces behind the evolutionary process, the effects of the various molecular mechanisms on the structure of genes, proteins, and genomes, the methodology involved in dealing with molecular data from an evolutionary perspective, and the logic of molecular hypothesis testing. The Second Edition incorporates newly acquired evolutionary insight from genome projects involving bacteria, plants, and animals, as well as analytical tools that have been developed and perfected in the last decade, and has been brought up to date in line with the many advances in genomics, protein engineering, computational biology, and bioinformatics.

The authors explain evolutionary phenomena at the molecular level in a way that can be understood without much prerequisite knowledge of molecular biology, evolution, or mathematics. Both mathematical and intuitive explanations are provided, and examples that support and clarify the many theoretical arguments and methodological discussions are included.

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Reviews and Commentary

"The 'Fundamentals' can serve both as an excellent text book for students of different biological disciplines and as a very useful introduction into molecular evolution for professional readers. ... Undoubtedly, this book should be an essential purchase for all libraries in higher education institutions with biology departments."
—V. N. Ksenzenko and Y. A. Trotsenko, Journal of Chemical Technology and Biotechnology

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Table of Contents

Introduction

Chapter 1: Genes, Genetic Codes, and Mutation

• Nucleotide Sequences
• Genomes and DNA Replication
• Genes and Gene Structure
• Amino Acids
• Proteins
• Genetic Codes and Translation
• Mutation
• Further Readings

 

Chapter 2: Dynamics of Genes in Populations

• Changes in Allele Frequencies
• Natural Selection
• Random Genetic Drift
• Effective Population Size
• Gene Substitution
• Genetic Polymorphism
• The Driving Forces in Evolution
• Further Readings

 

Chapter 3: Evolutionary Change in Nucleotide Sequences

• Nucleotide Substitution in a DNA Sequence
• Number of Nucleotide Substitutions between Two DNA Sequences
• Number of Amino Acid Replacements between Two Proteins
• Alignment of Nucleotide and Amino Acid Sequences
• Further Readings

 

Chapter 4: Rates and Patterns of Nucleotide Substitution

• Rates of Nucleotide Substitution
• Causes of Variation in Substitution Rates
• Positive Selection
• Patterns of Substitution and Replacement
• Nonrandom Usage of Synonymous Codons
• Molecular Clocks
• Relative-Rate Tests
• Local Clocks
• Evaluation of the Molecular Clock Hypothesis
• Rates of Substitution in Organelle DNA
• RNA Viruses

 

Chapter 5: Molecular Phylogenetics

• The Impact of Molecular Data on Phylogenetic Studies
• The Advantages of Molecular Data in Phylogenetic Studies
• Terminology of Phylogenetic Trees
• Types of Data
• Methods of Tree Reconstruction
• Distance Matrix Methods
• Maximum Parsimony Methods
• Maximum Likelihood Methods
• Rooting Unrooted Trees
• Estimation of Branch Lengths
• Estimation of Species Divergence Times
• Topological Comparisons
• Assessing Tree Reliability
• Problems Associated with Phylogenetic Reconstructions
• Molecular Phylogenetic Examples
• Molecular Phylogenetic Archeology
• The Universal Phylogeny
• Further Readings

 

Chapter 6: Gene Duplication, Exon Shuffling, and Concerted Evolution

• Types of Gene Duplication
• Domains and Exons
• Domain Duplication and Gene Elongation
• Formation of Gene Families and the Acquisition of New Functions
• Dating Gene Duplications
• Gene Loss
• The Globin Superfamily of Genes
• Prevalence of Gene Duplication, Gene Loss, and Functional Divergence
• Exon Shuffling
• The "Introns-Early" Versus the "Introns-Late" Hypotheses
• Alternative Pathways for Producing New Functions
• Molecular Tinkering
• Concerted Evolution
• Mechanisms of Concerted Evolution
• Detection and Examples of Concerted Evolution
• Evolutionary Implications of Concerted Evolution
• Further Readings

 

Chapter 7: Evolution by Transposition

• Transposition and Retroposition
• Transposable Elements
• Retroelements
• Retrosequences
• LINEs and SINEs
• Genetic and Evolutionary Effects of Transposition
• Horizontal Gene Transfer
• Further Readings

 

Chapter 8: Genome Evolution

• C Values
• Evolution of Genome Size in Prokaryotes
• The Minimal Genome
• Genome Miniaturization
• Genome Size in Eukaryotes and the C Value Paradox
• Mechanisms for Global Increases in Genome Size
• Maintenance of Nongenic DNA
• The Repetitive Structure of the Eukaryotic Genome
• Mechanisms for Regional Increases in Genome Size
• Gene Distribution
• Chromosomal Evolution
• Mechanisms for Changes in Gene Order and Gene Distribution among Chromosomes
• GC Content in Bacteria
• Chirochores
• Compositional Organization of the Vertebrate Genome
• The Distribution of Genes and Other Genetic Elements among Isochores
• Emergence of Nonuniversal Genetic Codes
• Further Readings

 

Appendix I. Spatial and Temporal Frameworks of the Evolutionary Process

Appendix II. Basics of Probability

Literature Cited

Index

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Fundamentals of Molecular Evolution, Second Edition	0-87893-266-6	$66.95	Purchase	Request Exam Copy
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