Basic Principles: How Traits Are Transmitted | |
Mendel's Breakthrough: Patterns, Particles, and Principles of Heredity | |
Extensions to Mendel: Complexities in Relating Genotype to Phenotype | |
The Chromosome Theory of Inheritance | |
Linkage, Recombination, and the Mapping of Genes on Chromosomes | |
What Genes Are and What They Do | |
DNA: How the Molecule of Heredity Carries, Replicates, and Recombines Information | |
Anatomy and Function of a Gene: Dissection Through Mutation | |
Gene Expression: The Flow of Genetic Information from DNA via RNA to Protein | |
Genomes | |
Deconstructing the Genome: DNA at High Resolution | |
Reconstructing the Genome Through Genetic and Molecular Analysis | |
The Direct Detection of Genotype Distinguishes Individual Genomes | |
How Genes Travel | |
The Eukaryotic Chromosome: An Organelle for Packaging and Managing DNA | |
Chromosomal Rearrangements and Changes in Chromosome Number Reshape Eukaryotic Genomes | |
The Prokaryotic Chromosome: Genetic Analysis in Bacteria | |
The Chromosomes of Organelles Outside the Nucleus Exhibit Non-Mendelian Patterns of Inheritance | |
How Genes Are Regulated | |
Gene Regulation in Prokaryotes | |
Gene Regulation in Eukaryotes | |
Cell-Cycle Regulation and the Genetics of Cancer | |
Using Genetics to Study Development | |
How Genes Change | |
The Genetic Analysis of Populations and How They Evolve | |
Evolution at the Molecular Level Reference: Portraits of Model Eukaryotic Organisms A Saccharomyces cerevisiae: Genetic Portrait of Yeast B Arabidopsis thaliana: Genetic Portrait of a Model Plant C Caenorhabditis elegans: Genetic Portrait of a Simple Multicellular Organism D Drosophila melanogaster: Genetic Portrait of the Fruit Fly E Mus musculus: Genetic Portrait of the House Mouse Guidelines for Gene Nomenclature Brief Answer Section | |
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