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Informed by many years of genetics teaching and research expertise, authors Mark Sanders and John Bowman use an integrated approach that helps contextualize three core challenges of learning genetics: solving problems, understanding evolution, and understanding the connection between traditional genetics models and more modern approaches.
Genetic Analysis: An Integrated Approach , 2/e is extensively updated with relevant, cutting-edge coverage of modern genetics and is supported by MasteringGenetics, the most widely-used homework and assessment program in genetics. Featuring expanded assignment options, MasteringGenetics complements the book’s problem-solving approach, engages students, and improves results by helping them master concepts and problem-solving skills.
Table of Contents
Chapter 1. The Molecular Basis of Heredity, Variation, and Evolution
Chapter 2. Transmission Genetics
Chapter 3. Cell Division and Chromosome Heredity
Chapter 4. Inheritance Patterns of Single Genes and Gene Interaction
Chapter 5. Genetic Linkage and Mapping in Eukaryotes
Chapter 6. Genetic Analysis and Mapping in Bacteria and Bacteriophages
Chapter 7. DNA Structure and Replication
Chapter 8. Molecular Biology of Transcription and RNA Processing
Chapter 9. The Molecular Biology of Translation
Chapter 10. The Integration of Genetic Approaches: Understanding Sickle Cell Disease
Chapter 11. Chromosome Structure
Chapter 12. Gene Mutation, DNA Repair, and Homologous Recombination
Chapter 13. Chromosome Aberrations and Transposition
Chapter 14. Regulation of Gene Expression in Bacteria and Bacteriophage
Chapter 15. Regulation of Gene Expression in Eukaryotes
Chapter 16. Analysis of Gene Function by Forward Genetics and Reverse Genetics
Chapter 17. Recombinant DNA Technology and Its Applications
Chapter 18. Genomics: Genetics from a Whole-Genome Perspective
Chapter 19. Organelle Inheritance and the Evolution of Organelle Genomes
Chapter 20. Developmental Genetics
Chapter 21. Genetic Analysis of Quantitative Traits
Chapter 22. Population Genetics and Evolution at the Population, Species, and Molecular Levels