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Transcript 
http://commons.wikimedia.org/wiki/File:Laurelyhardy_179.jpg
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IB Biology
Option D
D4 The Hardy Weinberg Principle
All syllabus statements ©IBO 2007
All images CC or public domain or link to original material.
Jason de Nys
D4.1 Explain how the Hardy-Weinberg equation is derived
The Hardy–Weinberg principle states that
both allele and genotype frequencies in a
population remain constant
—that is, they are in equilibrium—from
generation to generation unless specific
disturbing influences are introduced.
Wikipedia
http://www.flickr.com/photos/west-park/2610430399/
Consider two alleles A and a
A has a frequency of p
a has a frequency of q
Therefore p + q = 1
As the two alleles are the only
options at that locus
Lets make a Punnet square:
http://en.wikipedia.org/wiki/Hardy%E2%80%93Weinberg_principle
http://commons.wikimedia.org/wiki/File:Hardy-Weinberg.svg
An interactive that charts the changes in
frequency and represents them as areas:
D4.2 Calculate allele, genotype and phenotype frequencies for two allelles of a gene, using the
Hardy-Weinberg equation
Online
practise
questions
And more
practise
D4.3 State the assumptions made when the Hardy Weinberg equations is used
Okay, so if:
“both allele and genotype frequencies in a
population remain constant—that is, they are
in equilibrium—from generation to
generation”
What must be the underlying assumptions?
Basic Assumptions of the Hardy-Weinberg Principle
- All phenotypes equal fitness, no natural selection
- No mutation
- No immigration or emigration
- No genetic drift (infinitely large population)
- No assortative mating
Of course, at least one of
these factors will be acting
on a population in the wild
For the equation to work
mathematically:
- The organism involved must be diploid
and reproduce sexually
- Generations must not overlap
- The trait must be autosomal
Further information:
Good video Also revises
directional selection:
Online Quiz
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