TNBGGA Table of Contents
What is TNBGGA?
How to use this book
Part 1: Classic genetics
Chapter 01: Mitosis and meiosis: a primer for genetics
Chapter 02: Defining genes by function
Chapter 03: Defining genes by segregation patterns
Chapter 04: Chromosomes and sex linkage
Chapter 05: Defining genes by position
Part 2: Beginning of the modern synthesis
Chapter 06: Physical nature of the gene
Chapter 07: Analysis of gene sequences
Chapter 08: Mutations and suppressors
Chapter 09: Complementation in bacteria
Chapter 10: Gene regulation in bacteria
Chapter 11: Gene circuits and epistasis
Part 3: Eukaryotes and reverse genetics
Chapter 12: Cloning eukaryotic genes
Chapter 13: Gene regulation in eukaryotes
Chapter 14: Using reverse genetics to study molecules
Chapter 15: Transgenes in multicellular model organisms
Chapter 16: Gene knockouts in multicellular model organisms
Chapter 17: Newer tools for reverse genetics
Part 4: Population genetics (alt title: Studying genetics in humans? work in progress)
Chapter 18: The Hardy-Weinberg equilibrium
Chapter 19: Mutation, allele frequency, and selection
Chapter 20: Effects of inbreeding
Chapter 21: Polymorphisms in human DNA sequences
Chapter 22: Using statistics to evaluate linkage