Short description:

The theme of Introduction to Genetics is the progression from molecules (DNA and genes) to processes (gene expression and DNA replication) to systems (cells, organisms and populations). The molecular approach is particularly suitable for students for whom genetics is part of a broader program in biology, biochemistry or biomedicine.

Long description:

Nowadays, genetics focuses on DNA. Just like the first edition, the theme of this new edition, Introduction to Genetics: A Molecular Approach, is therefore the progression from molecules (DNA and genes) to processes (gene expression and DNA replication) to systems (cells, organisms and populations). This progression reflects both the basic logic of life and the way in which modern biological research is structured. The molecular approach is particularly suitable for students for whom genetics is part of a broader program in biology, biochemistry, the biomedical sciences or biotechnology. This book presents the basic facts and concepts with enough depth of knowledge to stimulate students to move on to more advanced aspects of the subject.

This second edition has been thoroughly updated to cover new discoveries and developments in genetics from the last ten years. There are new chapters that introduce important techniques such as DNA sequencing and gene editing, and the applications of genetics in our modern world are covered in chapters describing topics as diverse as gene therapy and the use of ancient DNA to study prehistoric ecosystems.

Key Features:

• This book provides a molecular approach to the study of genetics.


• It is a highly accessible and well-structured book with chapters organized into four parts to aid navigation.


• It presents high-quality illustrations to elucidate the various concepts and mechanisms.


• Each chapter ends with a Key Concepts section, which serves to summarize the most essential points.


• Self-study questions enable the reader to assess their comprehension of chapter content, and discussion topics facilitate a deeper understanding of the material by encouraging conversation and critical evaluation.


• Key terms are emboldened throughout the text and are listed at the end of each chapter, and definitions can be found in the Glossary.


• For instructors who adopt the book, an affiliated question bank is free to download.

Table of Contents:

1. What is Genetics and Why is it So Important?
PART 1. GENES AS UNITS OF BIOLOGICAL INFORMATION
2. DNA
3. Genes
4. Transcription of DNA to RNA
5. Types of RNA Molecule: Messenger RNA
6. Types of RNA Molecule: Ribosomal and Transfer RNA
7. The Genetic Code
8. Protein Synthesis
9. Control of Gene Expression
10. DNA Replication
11. Mutation and DNA Repair
PART 2. GENES AS UNITS OF INHERITANCE
12. Inheritance of Genes during Virus Infection Cycles
13. Inheritance of Genes in Bacteria
14. Inheritance of Genes during Eukaryotic Cell Division
15. Inheritance of Genes during Eukaryotic Sexual Reproduction
16. Inheritance of Genes in Populations
PART 3. HOW GENES ARE STUDIED
17 Mapping the Positions of Genes in Chromosomes
18 Sequencing Genes and Genomes
PART 4. GENETICS IN OUR MODERN WORLD
19. Genes in Differentiation and Development
20. The Human Genome
21. Genes and Medicine
22. DNA in Forensic Genetics and Technology
23. Genes in Industry and Agriculture
24. The Ethical Issues Raised by Modern Genetics