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Genetics

Genetics. Melissa T. Emberton Biology. Concepts. Instructions for specifying characteristics are carried in nucleic acids. Mulitcellular organisms, including humans, form from cells that contain two copies of each chromosome. This explains many features of heredity. History.

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Genetics

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  1. Genetics Melissa T. Emberton Biology

  2. Concepts • Instructions for specifying characteristics are carried in nucleic acids. • Mulitcellular organisms, including humans, form from cells that contain two copies of each chromosome. This explains many features of heredity.

  3. History • Genetics: Study of inherited traits • Heredity: Passing of traits from parents to offspring. • Gregor Mendel: Given credit for what we know about genetics/heredity. • Mendel studied garden peas and came up with a model for inheritance.

  4. How does the environment influence traits we have? Students will… Construct Punnett squares in order to determine phenotype of offspring. Predict what genes individuals carry based on traits they have. Identify mechanisms of change that influence evolution Distinguish between mechanisms of change influencing traits of organisms. Compare conditions necessary for populations to be in Hardy-Weinberg equilibrium. Design animal with adaptations to help them survive.

  5. Mendel’s Model • For each trait, we have two copies of the gene—one from the mother and one from the father. • There are alternative forms of genes. These are called alleles. For example, we possess two alleles for freckles. Their combination determine whether we will have freckles or not. • These alleles can be dominant or recessive. Dominant alleles, when present, will be expressed. Recessive alleles can be masked by dominant alleles. In order for recessive alleles to be expressed both must be recessive.

  6. Gametes carry only one allele for each inherited trait. At fertilization each gamete contributes one allele. • If a person is carrying two alleles for a trait that are the same—they are homozygous for that trait. If the alleles are different they are heterozygous. • The genes we are carrying for traits is our genotype. The expression of those genes is our phenotype.

  7. 20 If Tall is dominant in pea plants and short is recessive. Which would represent the genotype of a heterozygous plant • TT • Tt • tt • ST

  8. 20 Which would represent the genotype of a short pea plant? • TT • Tt • tt • ST

  9. 20 How many plants would be tall if you cross a heterozygous parent with a short parent? • ¼ • ½ • ¾ • All would be tall

  10. Monohybrid cross: Looks at only one trait at a time. Dihybrid cross: Looks at two traits at one time. Each trait gets a different letter Letters on Punnett Square are determined from all possible combinations of parent alleles.

  11. If black fur and long whiskers are dominant in rabbits. • A rabbit would need two letters for each trait. • homozygous dominant for color and homozygous recessive for whisker length • BBll—the rabbit would be black with short whiskers. • What about a rabbit who is heterozygous for both traits? • BbLl

  12. What would the following rabbits look like? • BbLl • Black with long whiskers • bbLL • Grey with long whiskers • BBll • Black with short whiskers • Bbll • Black with short whiskers

  13. Predicting offspring • Cross two parents heterozygous for both traits.

  14. 20 If Black is dominant and Long whiskers is dominant. What would the genotype of a rabbit that is grey and heterozygous for whisker length be? • BBLL • Bbll • bbll • bbLl

  15. 20 What would the rabbits look like if you crossed one that is homozygous dominant for color and whisker length with a rabbit who is grey with short whiskers? • ¼ black long, ¼ black short, ½ grey short. • ¼ black long, ¼ black short, ¼ grey long, ¼ grey short • All grey short • All black long

  16. Other Traits • Multiple Allele: Determine blood type. A & B are dominant—O is recessive. • Codominance: When two dominant alleles are expressed together. Ex: Roan coat. • Incomplete dominance: Intermediate trait is expressed in heterozygous individuals. Ex: In snapdragons a red (RR) and white (rr) cross makes pink flowers (Rr).

  17. 0 What color would the flowers be if you cross a red flower with a pink flower? • Red & Pink • Red, Pink & White • All Red • All White

  18. 0 If a woman has type O blood, and a man has type A blood, what could the children have? • Only Type O • Only Type A • Type A or Type B • Type A or Type O

  19. Inherited diseases • Genetic predisposition: Having an increased chance of a disease due to inheritance. Ex: Heart disease & Diabetes • Genetic disorder: If you have the genes for the disorder, you will definitely have the disease. Ex: Colorblindness & albinism

  20. Autosomal Disorders • Autosomal traits mean that the genes are carried on one of the 22 autosomes. • BOTH male and females can be carriers of autosomal disorders. • A carrier can pass on the genes but does not have the disorder. • Some include: albinism, cystic fibrosis, and sickle cell anemia

  21. Sex-linked Traits • Sex-linked traits are carried on the X chromosome. • ONLY females can be carriers of sex-linked disorders. • Some of these include: Colorblindness, Muscular Dystrophy & Hemophilia. • Because males only have one X, they are more likely to have sex-linked diseases than females.

  22. 0 If a man with MD marries a carrier, could they have a child with MD? • Yes, but only a girl • Yes, but only a boy • Yes, could be a boy or girl • No

  23. Pedigrees • Chart showing how a trait is inherited over several generations. • Males are squares—females are circles. • Children are listed in order of birth. • Shapes are colored completely if they express the trait. Only half shaded if they carry are heterozygous for trait.

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