Part 1: Basics of DNA, Chromosomes, Cells, Development, and Inheritance
1. Basic Principles of Nucleic Acid Structure and Gene Expression.
2. Fundamentals of Cells and Chromosomes.
3. Fundamentals of Cell-Cell Interactions and Immune System Biology.
4. Aspects of Early Mammalian Development, Cell Differentiation, and Stem Cells.
5. Patterns of Inheritance.
Part 2: Understanding Genomes
6. Core DNA Technologies: Amplifying DNA, Nucleic Acid Hybirdization, and DNA Sequencing.
7. Analyzing the Structure and Expression of Genes and Genomes.
8. Principles of Genetic Manipulation of Mammalian Cells.
9. Uncovering the Architecture and Workings of the Human Genome.
10. Gene Regulation and the Epigenome.
Part 3: Genetic Variation Between Individuals and Species
11. An Overview of Human Genetic Variation.
12. Human Population Genetics.
13. Comparative Genomics and Genome Evolution.
14. Human Evolution.
Part 4: Human Genetic Disease
15. Chromosomal Abnormalit...ies and Structural Variants.
16. Molecular Pathology: Connecting Phenotypes to Genotypes.
17. Mapping and Identifying Genes for Monogenic Disorders.
18. Complex Disease: Identifying Susceptibility Factors and Understanding Pathogenesis.
19. Cancer Genetics and Genomics.
Part 5: Applied Human Molecular Genetics
20. Genetic Testing in Healthcare and the Law.
21. Model Organisms and Modeling Disease.
22. Genetic Approaches to Treating Disease.