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Single-Trait Inheritance Review

Single-Trait Inheritance Review. Since one allele is inherited from each parent, various genotypes are possible The dominant phenotypes is expressed if the offspring is either heterozygous or homozygous for the dominant allele

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Single-Trait Inheritance Review

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  1. Single-Trait Inheritance Review • Since one allele is inherited from each parent, various genotypes are possible • The dominant phenotypes is expressed if the offspring is either heterozygous or homozygous for the dominant allele • The recessive phenotype is expressed only if the offspring is homozygous for the recessive allele

  2. Recall • Cross between a pea plant homozygous for round seeds and a pea plant that has wrinkled seeds 100% phenotype are round and 100% genotype are Rr • Cross between a pea plant heterozygous for round seeds and a pea plant that has wrinkled seeds ½ phenotypes are round and ½ wrinkled ½ genotypes Rf and ½ rr • Cross between two pea plants heterozygous for round seeds ¾ phenotypes are round and ¼ wrinkled ¼ genotype RR, ½ genotype Rr and ¼ rr

  3. Dihybrid Cross

  4. Mendel • Studied the inheritance of two separate traits in crossbreeding 1

  5. By doing other crosses, Mendel soon discovered that alleles assort independently • Law of independent assortment: If genes are located on separate chromosomes; they are inherited independently of each other

  6. Probability • number a ways that a given event could occur total number of possible events • Chance has no memory • Chance of tossing heads once is ½, the possibility of tossing heads twice is ½ x ½ = ¼

  7. Sample Problem Green seeds (G) are dominant to yellow seeds (g) and smooth seeds (R) are dominant to wrinkled seeds (r) A heterozygous green and heterozygous smooth seeded plant is crossed with a homozygous green and wrinkled seed plant GgRr x GGrr

  8. When doing the cross, you must first determine the possible gametes from each parent (notice each gamete has 1 allele from each pair) • GgRr  possible gametes are: GR, Gr, gR, gr • GGrr  possible gametes are: Gr, Gr, Gr, Gr

  9. Recall Parents: GgRr x GGrr Gametes: Gr, Gr, Gr, Gr and GR, Gr, gR, gr • When doing a dihybrid cross, use a 4 x 4 Punnett square GR Gr gR gr Notice that the genotypes in this row repeat in the next 3 rows… Gr Gr Gr Gr

  10. Parents:GgRr x GGrr • Luckily there is a shortcut if any gametes of a parent are duplicated GgRr – GR, Gr, gR, gr GGrr – Gr, Gr, Gr, Gr  only possible gamete is Gr GR Gr gR gr Gr • This revised Punnett is all you would need to write but you need to remember that the removed offspring still count • For example, if I asked how many offspring had the genotype GGRr, you would need to write 4

  11. Work • Finish hand-out

  12. Thanks to Kelly.

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