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• Darwin: Evolution is ____________ _____________________________
• Evolution: changes through time
1. Species ____________ difference
2. Descendants ____________ from their ancestors
3. New species ____________ from existing ones
Genes Within PopulationsChapter 20
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Darwin’s natural selection: ____________ a result of preexisting ____________ ____________
Natural selection: mechanism of evolutionary change
Darwin’s theory for how long necks evolved in giraffes
Populations evolve
One species, two populations
• Natural selection acts on individuals– differential ____________– Differential
________________________
• Populations evolve– ____________makeup of
population ____________over time
– ___________________ (greater fitness) become ________________________
Brief Terminology ReviewGene – determines a ____________ (eye color)
Allele – A ____________of a ____________ (ex. brown eyes vs. blue eyes)
____________________________ organisms ________2 ____________for any trait.
Dominant – An allele that ____________a trait, regardless of the other other allele (ex. brown eyes)
Recessive – An allele that _________________ ___________a trait _____________________ ________________ (ex. blue eyes)
Terminology Review ContinuedHomozygous – any individual who has 2
_____________________________________. _________homozygous _________________or homozygous ______________.
Heterozygous- any individual who has ______copy of ____________________________ copy of a ________________________. WILL SHOW THE ________________TRAIT!
Populations & gene poolsConcepts
–a ______________is a localized group of interbreeding individuals
–______________ is _________________________________ in the population
• remember difference between ____________& _______________!
–__________________________is how common is that allele in the population
• how many B vs. b in whole population
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STATES:The original proportions of the genotypes in a population will remain constant from generation to generation as long as five assumptions are met
The Hardy-Weinberg Principle
Five assumptions : • No _______________ takes place• No _________are _______________ ____or
____________ other sources• _______________ _________ is occurring• The _______________ size is very _______• _____________________ occurs
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Calculate genotype frequencies:p2 + 2pq + q2 = 1
• p2 = individuals _____________________ for _____________________ allele (p)
• 2pq = individuals _____________________ for both alleles
• q2 = individuals _____________________ for _____________________ allele (q)
• because there are only two alleles: p +q = 1
Hardy-Weinberg Principle
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In a population of Cats, Black (B ≈ p) is dominant to White fur (b ≈ q) in Hardy Weinberg equilibrium the frequency of the Black allele is .7 (p = .7).
USE 2 equations: p2 + 2pq + q2 = 1 AND p +q = 1
a. What is the frequency of the white allele (q)? (remember p + q = 1)
p = .7 so .7 +q = ____ solve for q q = ____
•What is the frequency of homozygous black cats? (p2)?
p = .7 so p2 = (___) = _____
•What is the frequency of the heterozygous cats? (2pq)
p = .7 and q = .3 so ___ (___)(___) = ._____
Applying the Hardy-Weinberg Principle- check your HW
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Using Hardy-Weinberg equation to __________ frequencies in subsequent generations
Hardy-Weinberg Principle
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In certain Native American groups, albinism due to a homozygous recessive condition in the biochemical pathway for melanin is sometimes seen. If the frequency of the allele for this condition is 0.06, which of the following is closest to the frequency of the dominant allele in this population? (Assume that the population is in Hardy‑Weinberg equilibrium.)
1. We are given 0.06, what is this? p, p2, q q2, OR 2pq?
2. The question asks for frequency of dominant allele, what is this? p, p2, q q2, OR 2pq?
3. Once you figure this out you USE 2 equations: p2 + 2pq + q2 = 1 AND p +q = 1
Applying the Hardy-Weinberg Principle- Try another