1. Early Theories of Genetics Thomas Hunt Morgan United Streaming: Biologix: Introduc. To Classical Genetics – Parts 1-3

2. Mendelian Genetics Mendel bred, tended, and analyzed over 28 000 pea (Pisum sativum) plants in a monastery garden. Mendel bred, tended, and analyzed over 28 000 pea (Pisum sativum) plants in a monastery garden. He observed many different traits or characteristics. He observed many different traits or characteristics. He let the plants pollinate with each other and called them true breeding plants He let the plants pollinate with each other and called them true breeding plants These true breeding plants, parental or P, generation. These true breeding plants, parental or P, generation. The offspring he called, filial or F1, generation. The offspring he called, filial or F1, generation.

3. The F1 were then allowed to self-pollinate and their offspring were the second filial, or the F2 generation. The F1 were then allowed to self-pollinate and their offspring were the second filial, or the F2 generation.

4. Expression of traits or factors Dominant: the trait that was expressed or shown. Dominant: the trait that was expressed or shown. –Shown in as a capital letter– for example, B (black hair) Recessive: the trait that was not expressed. Recessive: the trait that was not expressed. –Shown as a lowercase letter—for example, b (blonde hair)

6. Terminology Combination of alleles (letter representation, different form of the gene) is called the genotype. Combination of alleles (letter representation, different form of the gene) is called the genotype. The phenotype is the physical form that is observed. The phenotype is the physical form that is observed. Homozygous – a genotype with the exact same allele, RR Homozygous – a genotype with the exact same allele, RR Heterozygous – a genotype with different alleles, Rr Heterozygous – a genotype with different alleles, Rr

7. Ways to express possible traits Punnett Square

8. The Law of Segregation – Mendel’s First Law All individuals will have two copies of each factor (or gene). These copies will segregate (separate) randomly during gamete formation, and each gamete receives one copy of every factor.

9. Alternative versions of genes account for variations in inherited characteristics – alleles If the two alleles, then one, that is the dominant trait is fully expressed.

10. The Law of Independent Assortment Using a dihybrid cross (two genes are involved), Mendel conducted experiments that cross true breeding tall plants that had green pods (TTGG) with true breeding short plants that had yellow pods (ttgg). Using a dihybrid cross (two genes are involved), Mendel conducted experiments that cross true breeding tall plants that had green pods (TTGG) with true breeding short plants that had yellow pods (ttgg).

11. He noticed that that results showed a 9:3:3:1 ratio— producing F2 plants with the phenotypes of tall with green pods, tall with yellow pods, short with green pods, and short with yellow pods. Therefore Mendel concluded, that the two alleles for one gene segregate (assort) independently of the alleles for other genes during gamete formation.

12. Test Crosses Test crosses are often used to determine the genotype of the parent generation, ie, to determine genotype of a dominant phenotype, or if the parent is homozygous or heterozygous. Test crosses are often used to determine the genotype of the parent generation, ie, to determine genotype of a dominant phenotype, or if the parent is homozygous or heterozygous. The test cross is always performed between the unknown genotype and a homozygous recessive genotype. The test cross is always performed between the unknown genotype and a homozygous recessive genotype.

13. Incomplete Dominance Incomplete Dominance: describes a condition in which neither of two alleles for the same gene can be completely conceal the presence of the other. Incomplete Dominance: describes a condition in which neither of two alleles for the same gene can be completely conceal the presence of the other. Superscripts are used to identify the expression of the allele Superscripts are used to identify the expression of the allele In this case, neither of the alleles for flower color are completely dominant over the other; therefore, individuals with heterozygous alleles have a phenotype unlike those with either set of homozygous alleles. In this case, neither of the alleles for flower color are completely dominant over the other; therefore, individuals with heterozygous alleles have a phenotype unlike those with either set of homozygous alleles.

14. Co-dominance A situation in which both alleles are fully expressed. A situation in which both alleles are fully expressed. Both genes are expressed at the same time. Both genes are expressed at the same time.