Khan Academy
Khan Academy: An Introduction to Genetic Mutations
Learn about genetic mutations. [5:24]
Khan Academy
Khan Academy: Reproduction and Cell Division: Cancer
An introduction to what cancer is and how it is the by-product of broken DNA replication. [12:36]
Khan Academy
Khan Academy: The Effects of Mutations
The Khan Academy resource is a video about the effects of mutations.
Khan Academy
Khan Academy: The Different Types of Mutations
Review for your MCAT by watching this video on the different types of genetic mutations. [5:52]
Khan Academy
Khan Academy: The Causes of Genetic Mutations
Prepare for the MCAT by watching this video on genetic mutations. [5:13]
Sophia Learning
Sophia: Mutations: Lesson 1
This lesson will describe what a mutation is and how it can effect the outcome of protein synthesis. It is 1 of 4 in the series titled "Mutations."
Sophia Learning
Sophia: Speciation and Natural Selection: Lesson 2
This lesson discusses how and why plants and animals adapt to their surroundings over time. It is 2 of 4 in the series titled "Speciation and Natural Selection."
Bozeman Science
Bozeman Science: Genotypes and Phenotypes
Paul Andersen explains how changes in the genotype of an individual can affect the phenotype. He begins with genotype:phenotype::letters:story analogy. He explains how mutations can be neutral, beneficial or harmful. He also explains how...
Bozeman Science
Bozeman Science: Mutations
Paul Andersen describes the major mutations found in the living world. He starts with an analogy comparing the information in DNA with the information in a recipe. Changes in the DNA can result in changes to the protein, like changes in...
Bozeman Science
Bozeman Science: Variation of Traits
In this video, Paul Andersen explains how variation is created in a population over time. Variation in offspring is caused by genetic recombination, mutations and environmental effects. Parental DNA is recombined using the process of...
Bozeman Science
Bozeman Science: Microevolution
Paul Andersen defines microevolution as any change in the frequency of the allele pool. He then explains the five mechanisms of evolution; small sample size, non-random mating, mutations, gene flow and natural selection.