1 / 14

Dihybrid Cross & Beyond Dominant and Recessive Genetics

Dihybrid Cross & Beyond Dominant and Recessive Genetics. January 6, 2011. Warmup. In ginuea pigs, short hair (S) is dominant to long hair (s). Two short-haired ginuea pigs breed and one of the resulting offspring is long-haired. Draw the punnett square to represent this situation

arawn
Télécharger la présentation

Dihybrid Cross & Beyond Dominant and Recessive Genetics

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Dihybrid Cross &Beyond Dominant and Recessive Genetics January 6, 2011

  2. Warmup • In ginuea pigs, short hair (S) is dominant to long hair (s). Two short-haired ginuea pigs breed and one of the resulting offspring is long-haired. • Draw the punnett square to represent this situation • What are the genotypes of the parents?

  3. Law of Independent Assortment • Mendel wondered if alleles were “linked” together. • He knew yellow seeds (Y) were dominant over green (y), and round seeds (R) were dominant over wrinkled (r). But… • Are all yellow seeds were round? • And all green seed were wrinkled?

  4. Independent Assortment cont. • So he crossed them- Got the F1 • RRYY (round yellow) x rryy (wrinkled green) rryy RRYY

  5. Independent Assortment cont • Then he did the F2 • He crossed the RrYy with RrYy • Since the seeds in the generation no longer linked being yellow and round and green and wrinkled. Mendel now new that genes were independent of each other

  6. Two laws from his observations • Law of Segregation- when you make your gametes (sex cells), the copies of a gene separate. • Ex. One of your sex cells may have an allele for brown hair and another gamete may have an allele for red hair • Law of Independent Assortment- genes for different traits separate independently of one another • Contributes to genetic variations observed in plants and animals

  7. Beyond Dominant and Recessive • Some alleles are not dominant or recessive and others are not controlled by just one gene! • Incomplete Dominance • Codominance • Multiple Alleles • Polygenic traits

  8. Incomplete Dominance • When one allele is not dominant over another. • The heterozygous genotype produces a mix of the phenotypes • Red and white flower producing PINK

  9. Codominance • When both alleles contribute to the phenotype • Not mixed, but both present • Example: Red cows x White cows  red and white spotted cows

  10. Multiple Alleles • When a gene has more than 2 possible alleles • Although individuals can only have 2 there are more in nature • Example – ABO Human Blood Type • Example– Fur color in rabbits • Single gene, 4 alleles

  11. Blood Types

  12. Polygenic trait • When trait/phenotype is controlled by the interaction of more than 1 gene • Example: Skin color in humans, high blood pressure and height • Skin color- more than four different genes that control this trait

  13. Polygenic traits- Skin Color

  14. Homework • Finish green “Genetic Basics” worksheet • # 15, 16, 17, 20 • Fill in front side of 11-3 notes sheet (read the section to complete) • Quiz tomorrow!

More Related