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11-2 Probability and Punnett Squares11-2 Probability and Punnett Squares
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11-2 Probability and Punnett Squares
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How do geneticists use the principles of probability?
Genetics and Probability
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11-2 Probability and Punnett Squares
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Genetics and Probability
Genetics and Probability
The likelihood that a particular event will occur is called probability.
The principles of probability can be used to predict the outcomes of genetic crosses.
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11-2 Probability and Punnett Squares
Slide 4 of 21
Punnett Squares
How do geneticists use Punnett squares?
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11-2 Probability and Punnett Squares
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Punnett Squares
Punnett Squares
The gene combinations that might result from a genetic cross can be determined by drawing a diagram known as a Punnett square.
Punnett squares can be used to predict and compare the genetic variations that will result from a cross.
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11-2 Probability and Punnett Squares
Slide 6 of 21
A capital letter represents the dominant allele for tall.
A lowercase letter represents the recessive allele for short.
In this example,
T = tallt = short
Punnett Squares
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11-2 Probability and Punnett Squares
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Gametes produced by each F1 parent are shown along the top and left side.
Punnett Squares
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11-2 Probability and Punnett Squares
Slide 8 of 21
Punnett Squares
Possible gene combinations for the F2 offspring appear in the four boxes.
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11-2 Probability and Punnett Squares
Slide 9 of 21
Punnett Squares
Organisms that have two identical alleles for a particular trait are said to be homozygous.
Organisms that have two different alleles for the same trait are heterozygous.
Homozygous organisms are true-breeding for a particular trait.
Heterozygous organisms are hybrid for a particular trait.
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11-2 Probability and Punnett Squares
Slide 10 of 21
Punnett Squares
All of the tall plants have the same phenotype, or physical characteristics.
The tall plants do not have the same genotype, or genetic makeup.
One third of the tall plants are TT, while two thirds of the tall plants are Tt.
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11-2 Probability and Punnett Squares
Slide 11 of 21
Punnett Squares
The plants have different genotypes (TT and Tt), but they have the same phenotype (tall).
TTHomozygous
TtHeterozygous
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11-2 Probability and Punnett Squares
Slide 12 of 21
Probability and Segregation
Probability and Segregation
One fourth (1/4) of the F2 plants have two alleles for tallness (TT).
2/4 or 1/2 have one allele for tall (T), and one for short (t).
One fourth (1/4) of the F2 have two alleles for short (tt).
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11-2 Probability and Punnett Squares
Slide 13 of 21
Probability and Segregation
Because the allele for tallness (T) is dominant over the allele for shortness (t), 3/4 of the F2 plants should be tall.
The ratio of tall plants (TT or Tt) to short (tt) plants is 3:1.
The predicted ratio showed up in Mendel’s experiments indicating that segregation did occur.
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11-2 Probability and Punnett Squares
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Probabilities Predict Averages
Probabilities Predict Averages
Probabilities predict the average outcome of a large number of events.
Probability cannot predict the precise outcome of an individual event.
In genetics, the larger the number of offspring, the closer the resulting numbers will get to expected values.
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Slide 15 of 21
11-2
Probability can be used to predict
a. average outcome of many events.
b. precise outcome of any event.
c. how many offspring a cross will produce.
d. which organisms will mate with each other.
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Slide 16 of 21
11-2
Compared to 4 flips of a coin, 400 flips of the coin is
a. more likely to produce about 50% heads and 50% tails.
b. less likely to produce about 50% heads and 50% tails.
c. guaranteed to produce exactly 50% heads and 50% tails.
d. equally likely to produce about 50% heads and 50% tails.
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Slide 17 of 21
11-2
Organisms that have two different alleles for a particular trait are said to be
a. hybrid.
b. heterozygous.
c. homozygous.
d. recessive.
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Slide 18 of 21
11-2
Two F1 plants that are homozygous for shortness are crossed. What percentage of the offspring will be tall?
a. 100%
b. 50%
c. 0%
d. 25%
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Slide 19 of 21
11-2
The Punnett square allows you to predict
a. only the phenotypes of the offspring from a cross.
b. only the genotypes of the offspring from a cross.
c. both the genotypes and the phenotypes from a cross.
d. neither the genotypes nor the phenotypes from a cross.