1. Get Ready for Genetics and Genomics
1.1. The Process of Science
1.1.1. How Science Works
1.1.2. Science Literacy
1.2. Fundamentals
1.2.1. Life
1.2.2. Cells
1.2.3. Chemistry
1.2.4. Math and Statistics
1.2.5. Graphing
2. Basic Principles: How Genes Are Transmitted
2.1. Basic Genetics
2.1.1. Traits
2.1.2. DNA and Genes
2.1.3. Proteins
2.1.4. Chromosomes
2.1.5. Inheritance
2.1.6. Mutation
2.2. Mendel's Principles of Heredity
2.2.1. The Puzzle of Inheritance
2.2.2. Genetic Analysis According to Mendel
2.2.3. Mendelian Inheritance in Humans
2.3. Extensions to Mendel's Laws
2.3.1. Extensions to Mendel for Single-Gene Inheritance
2.3.2. Extensions to Mendel for Two-Gene Inheritance
2.3.3. Extensions to Mendel for Complex Trait Inheritance
2.4. Genes and Health I
2.4.1. Describe DNA structure.
2.4.2. Choose a genetic condition of interest.
2.4.3. Identify one gene associated with the condition.
2.5. Chromosomes and Inheritance
2.5.1. Chromosomes: The Carrier of Genes
2.5.2. Mitosis: Cell Division that Preserves Chromosome Number
2.5.3. Meiosis: Cell Division that Halves Chromosome Number
2.6. Sex Chromosomes
2.6.1. Sex Chromosomes and Sex Determination
2.6.2. Gametogenesis
2.6.3. Sex Linkage
2.6.4. Sex-Linked and Sexually Dimorphic Traits in Humans
2.6.5. Human Intersexuality
2.7. Linkage, Recombination, and Gene Mapping
2.7.1. Gene Linkage and Recombination
2.7.2. Recombination: A Result of Crossing-Over During Meiosis
2.7.3. Mapping: Locating Genes Along a Chromosome
2.7.4. The Chi-Square Test and Linkage Analysis
2.7.5. Tetrad Analysis in Fungi
2.7.6. Mitotic Recombination and Genetics Mosaics