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Mendel and Heredity

Mendel and Heredity. Chapter 10 and 12. Key Terms. Heredity – The passing of traits from parents to offspring Genetics – the branch of science that studies heredity Gene – the unit of heredity – codes for a specific trait Gregor Mendel – the father of modern genetics

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Mendel and Heredity

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  1. Mendel and Heredity Chapter 10 and 12

  2. Key Terms • Heredity – The passing of traits from parents to offspring • Genetics – the branch of science that studies heredity • Gene – the unit of heredity – codes for a specific trait • Gregor Mendel – the father of modern genetics • Gametes – male and female sex cells • Zygote – forms when the sperm and egg meet

  3. Summary of Mendel’s Experiments • Why peas? • Characters exist in two clear forms (tall or short, purple or white flowers, etc.) • Self-fertilization is possible • Small plant • Grows easily • Matures quickly • Many offspring

  4. What did Mendel do? • He self pollinated the pea plants until they were “true-breeding” • Had only one version of a trait in their genes • Only genes for purple flowers, or for being tall • This made the “P-generation” (parent generation) • He then crossed 2 different true-breeding plants and recording the results. This made the F1 generation (filial 1). These are hybrids. • Finally, he crossed 2 members of the F1 generation making the F2 generation (filial 2)

  5. What was the result of Mendel’s experiment? • All members of the F1 generation displayed the dominant traits • Seemed as if one trait had disappeared! • The members of the F2 generation displayed a 3:1 ratio of dominant to recessive • The trait reappeared!

  6. The Result of Mendel’s Experiments. Mendel’s Hypotheses: • For each inherited character, a person has 2 copies of the gene – one from each parent • There are alternative versions of genes (tall/short, wrinkled/round, etc.) • When 2 alternative versions occur in the same individual, one is expressed and the other is hidden

  7. Genetic Rules • Rule of Unit Factor: • There are genes on chromosomes that control traits and at least 2 versions of each trait exists • Rule of Dominance • One trait is dominant to the other and masks the other gene when it is present • Law of Segregation • Traits are inherited independent of each other • Law of Independent Assortment • Homologous chromosomes sort into the gametes independently of each other

  8. Some more terms • Alleles –different versions of a gene • Dominant – the gene that is always expressed if it is present – capital letter • Recessive – must have 2 copies to be expressed, otherwise it is hidden by the dominant gene – lower-case letter • Homozygous – person has 2 of the same allele – TT or BB or tt or bb • Heterozygous – person has 2 different alleles – Tt or Bb

  9. Genotype The genes that an organism possesses Homozygous Heterozygous Phenotype The way an organism looks Only reveals the genotype if the recessive trait is displayed

  10. How do we determine the genotype and phenotype of the offspring Punnett Squares! • Used to determine probability • Monohybrid • Dihybrid • Trihybrid

  11. More Complex Inheritance • Incomplete Dominance – the heterozygote has a blend of the 2 traits • Codominance – both traits occur equally • Multiple Alleles – more than two alleles for a trait • Polygenic Inheritance – more than one gene controls the trait – usually shows a wide range of variation – skin color and height

  12. Nature vs. NurtureThe effect of the environment • Environmental effects can determine if a gene is expressed • Chemicals, stress, sunlight, nutrition, etc • Internal environment can also determine if a gene is expressed • Gender, weight, hormone imbalances

  13. Sex-linked Genes • On the X or Y Chromosome • Examples: Color-blindness, hemophilia, duchene’s muscular dystrophy • Disorders occur more frequently in males

  14. Codominance

  15. Incomplete Dominance

  16. Multiple alleles

  17. Semi Dominance

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