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Traits and Punnett Squares

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Presentation on theme: "Traits and Punnett Squares"— Presentation transcript:

1 Traits and Punnett Squares

2 Traits and Alleles Traits are characteristics passed from your parents, ex) eye color Each cell in your body has a complete set of DNA-46 chromosomes (23 from mom, 23 from dad) Sex cells (sperm and egg) have 23 chromosomes each Each trait is determined by a pair of genes, called alleles For each trait, you have 1 allele from mom, 1 allele from dad. Alleles are shown by using letters, ex) T for height Alleles are considered dominant or recessive

3 Dominant Alleles An allele that masks a recessive alleles
Dominant alleles are shown in capital letters. Presence of the dominant allele will mean the dominant trait is shown ex) Tt or TT Dominant alleles are always listed first-so it would be Tt not tT.

4 Recessive Alleles An allele that is masked by a dominant allele
Recessive alleles are shown in lower case letters. The only way that a recessive trait is shown is if there are 2 of them-1 from each parent Ex) tt

5 Homozygous Traits or Alleles
Means that there are 2 of the same alleles ex) TT or tt Pure is another word for homozygous

6 Heterozygous Traits or Alleles
Means that there are 2 different alleles ex) Tt Hybrid is another term for heterozygous

7 Genotype What 2 alleles are present Ex) TT or Tt or tt

8 Phenotype What trait is shown-the characteristic that is shown
Ex) tall or short

9 Using the letter R, give a heterozygous genotype
Practice Problem 1 Using the letter R, give a heterozygous genotype

10 Give a dominant, purebred genotype using the letter t
Practice Problem 2 Give a dominant, purebred genotype using the letter t

11 Practice Problem 3 A dog has genotype Tt where T=brown fur, t-black fur. Which phenotype will be expressed for this dog?

12 Punnett Square Used to determine the genotype and phenotype of offspring Steps: Draw square Fill in parent genotypes Complete offspring genotypes Determine % of genotypes of offspring Determine % of phenotypes of offspring

13 Punnett Square Example
Example 1) A brown (BB) rabbit is crossed with a white rabbit (bb). For their offspring, give the % of each genotype and each phenotype. Steps: Draw square

14 Punnett Square 2) Fill in parent genotypes B B b b
Example 1) A brown (BB) rabbit is crossed with a white rabbit (bb). For their offspring, give the % of each genotype and each phenotype. B B 2) Fill in parent genotypes b b

15 Punnett Square 3) Complete offspring genotypes Bb Bb Bb Bb B B b b
Example 1) A brown (BB) rabbit is crossed with a white rabbit (bb). For their offspring, give the % of each genotype and each phenotype. B B 3) Complete offspring genotypes Bb b Bb b Bb Bb

16 Punnett Square Determine % of genotypes of offspring: BB-0/4=0%
Example 1) A brown (BB) rabbit is crossed with a white rabbit (bb). For their offspring, give the % of each genotype and each phenotype. B B Determine % of genotypes of offspring: BB-0/4=0% Bb-4/4=100% bb-0/4=0% Bb b Bb b Bb Bb

17 Punnett Square 5) Determine % of phenotypes of offspring:
Example 1) A brown (BB) rabbit is crossed with a white rabbit (bb). For their offspring, give the % of each genotype and each phenotype. B B 5) Determine % of phenotypes of offspring: Brown-4/4=100% White-0/4=0 % Bb b Bb b Bb Bb

18 Punnett Square Fill in parent genotypes
Example 2) A cross is done between green (Gg) and yellow parent plants (gg) . For their offspring, give the % of each genotype and each phenotype. G g Fill in parent genotypes g g

19 Punnett Square Complete square gg Gg Gg gg
Example 2) A cross is done between green (Gg) and yellow parent plants (gg) . For their offspring, give the % of each genotype and each phenotype. G g Complete square gg Gg g g Gg gg

20 Punnett Square gg Gg Gg gg
Example 2) A cross is done between green (Gg) and yellow parent plants (gg) . For their offspring, give the % of each genotype and each phenotype. G g Genotypes: GG-0/4=0% Gg-2/4=50% gg-2/4=50% gg Gg g g Gg gg

21 Punnett Square Phenotypes: Green-2/4=50% Yellow-2/4=50% gg Gg Gg gg
Example 2) A cross is done between green (Gg) and yellow parent plants (gg) . For their offspring, give the % of each genotype and each phenotype. G g Phenotypes: Green-2/4=50% Yellow-2/4=50% gg Gg g More practice: g Gg gg

22 Practice Problem 4 In plants, a green leaf (G) is dominant to a yellow leaf (g). If one parent is heterozygous and the other parent is homozygous dominant, what are the parents genotypes?

23 Practice Problem 5 In plants, a green leaf (G) is dominant to a yellow leaf (g). If one parent is heterozygous and the other parent is homozygous dominant, what are the phenotypes and percents of the offspring?

24 Practice Problem 6 In plants, a green leaf (G) is dominant to a yellow leaf (g). If both parents are heterozygous, what will the phenotypes and percents of the offspring?

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