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Introduction to Hardy- Weinberg Principle  How do we know the population is evolving?  We can tell if the population is evolving if we measure genetic.

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Presentation on theme: "Introduction to Hardy- Weinberg Principle  How do we know the population is evolving?  We can tell if the population is evolving if we measure genetic."— Presentation transcript:

1 Introduction to Hardy- Weinberg Principle  How do we know the population is evolving?  We can tell if the population is evolving if we measure genetic change using Hardy- Weinberg equilibrium equation.

2 Think back to yesterday’s bird beak lab. What beak survived better than other beaks while foraging for cat food? Did the bird population change over time?

3  Now, in real populations in nature, it’s not that easy to observe change.  If we were to go into Sauerman Woods, and attempt to capture all the rabbits, it’s not possible. We need to capture as many rabbits as possible because we need a large sample. However, capture is difficult, so we use a Population Sampling.  Population Sampling is a technique that uses part of a population to represent a whole population.

4  Once we have a population sample, we can evaluate whether the population is in fact, evolving.  Scientists attempt to measure genetic change using the Hardy-Weinberg principle. “Under certain conditions, frequency of the dominant and recessive alleles will remain the same generation after generation.”

5 Common Misconceptions  The dominant allele of a trait will always have the highest frequency in a population.  The recessive allele of a trait will always have the lowest frequency in a population.  Polydactyl is a condition of having more than 5 digits—inherited as an autosomal dominant phenotype.

6  Once we have the population sample to actually measure Hardy- Weinberg principle, we can use a gene pool (all of the genes of every individual in a population sample) to study the frequency with which certain alleles change over time.

7 Hardy-Weinberg Equation  Allele frequency (gene frequency) = for example, A:80% a:20%  Genotype frequency = AA Aa aa  (the number of specific types of alleles / the total number of alleles in the gene pool)  P = frequency of the dominant allele  Q = frequency of the recessive allele  P + Q = 1  P 2 + 2pq + q 2 = 1  P 2 = homozygous dominant individuals (percentage of homozygous dominant individuals)  2pq = heterozygous individuals (percentage of heterozygous individuals)  Q 2 = homozygous recessive individuals (percentage of homozygous recessive individuals)

8 Does Hardy-Weinberg Exist in Reality?  What does the Hardy-Weinberg principle say?  Hardy-Weinberg says that genes and gene frequency remain stable and at equilibrium.  Equilibrium means that the genotypes or phenotypes in a population remain constant over time.  If this principle is in fact, true, NO EVOLUTION is occurring in the population!

9 Does Hardy-Weinberg Exist in Reality?  In order for Hardy-Weinberg principle to be actually occurring, the following conditions must be present in order for Hardy-Weinberg equilibrium to be actually occurring:  The population is large (no emmigration or immigration)  Mates are chosen at random  Mutation is not present  Natural Selection forces are absent (no “Survival of the Fittest”

10 Hardy-Weinberg is a Hypothetical Situation! This is a hypothetical or imaginary situation because…..  Mates are really not chosen at random.  Mutations are often present in a population.  Natural Selection forces are often present in a population.

11 Are the 4 conditions of Hardy-Weinberg principle ever met in nature?  Very rarely are these conditions met in nature—so evolution is usually occurring.  However, sharks and turtles come very close to meeting the 4 requirements.

12 Would you expect sharks and turtles to exhibit relatively constant allele frequencies? Yes! Researchers have determined that genetic information in mammals changes about 3% every 1 million years, while genetic information of sharks changes at a rate 7 to 8 times slower than other mammals.  Do any populations ever fulfill all of the conditions perfectly? No. The Hardy- Weinberg principle describes an imaginary situation in which no selection forces are acting on organisms.

13  Each population has a life-span of 5 million years—when genes change too much, the population may die out.  Scientists often attempt to prove something is not true—in order to prove something else is true! This is why Hardy- Weinberg principle is so convenient.


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