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Mendelian exceptions

Mendelian exceptions. With  Mr. Lowderman. We will learn:. Co-dominance: Both Alleles are completely expressed Incomplete dominance: One Allele is not completely dominant over the other Allele Polygenic traits - Traits controlled by two or more genes

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Mendelian exceptions

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  1. Mendelian exceptions With  Mr. Lowderman

  2. We will learn: • Co-dominance: Both Alleles are completely expressed • Incomplete dominance: One Allele is not completely dominant over the other Allele • Polygenic traits - Traits controlled by two or more genes • Sex-linked gene – A gene located on a sex chromosome (Y or X) • Multiple alleles: A gene that has more than two Alleles • Punnet Squares and Pedigrees: We will use what we learned above to solve simple problems

  3. Incomplete Dominance • In four o’clock plants, the alleles for red and white flowers show incomplete dominance. Heterozygous (Rr) plants have pink flowers—a mix of red and white coloring.

  4. Incomplete Dominance • A cross between two "four o’clock" (Mirabilis jalapa) plants shows a common exception to Mendel’s principles. Some alleles are neither completely dominant nor recessive. As shown in the previous slide, the F1 generation produced by a cross between red-flowered (RR) and white-flowered (rr) Mirabilis plants consists of pink-colored flowers (Rr).  • Which allele is dominant in this case? Neither one. Cases in which one allele is not completely dominant over another are called incomplete dominance. In incomplete dominance, the heterozygous phenotype lies somewhere between the two homozygous phenotypes.

  5. CoDominance • Codominance is one type of inheritance that does not follow the simple dominance Mendel observed. Codominant white and black alleles result in a mixture of white and black feathers. 

  6. Multiple Alleles • So far, our examples have described genes for which there are only two alleles, such as a and A. In nature, such genes are the exception rather than the rule. Many genes exist in several different forms and are therefore said to have multiple alleles. • An individual, of course, usually has only two copies of each gene, but many different alleles are often found within a population. One of the best-known examples is coat color in rabbits. A rabbit’s coat color is determined by a single gene that has at least four different alleles as shown in the next slide. The four known alleles display a pattern of simple dominance that can produce four coat colors.  • Many other genes have multiple alleles, including the human genes for blood type.

  7. Multiple Alleles • Coat color in rabbits is determined by a single gene that has at least four different alleles. Different combinations of alleles result in the four colors you see here. 

  8. Polygenic traits • Many traits are produced by the interaction of several genes. Traits controlled by two or more genes are said to be polygenic traits, meaning “many genes.” At least two and as many as a dozen genes are responsible for the many different shades of human eye color. As you might expect, polygenic traits often show a wide range of phenotypes.

  9. Use what you have learned • To solve the problems in your package handouts

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