1 / 15

Understanding Inheritance

Understanding Inheritance. What controls traits? Genes on a chromosomes Gene : a section of DNA on a chromosome that has genetic information for one trait . Alleles: the different forms of a gene . How many alleles controlled flower color in Mendel’s experiment? T wo.

emmy
Télécharger la présentation

Understanding Inheritance

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. Understanding Inheritance What controls traits? • Genes on a chromosomes Gene: • a section of DNA on a chromosome that has genetic information for one trait. Alleles: • the different forms of a gene. How many alleles controlled flower color in Mendel’s experiment? • Two

  2. How are alleles represented? • By letters Letters are chosen by • Determining what the dominant trait is. The letter chosen is usually the first letter of that trait. Upper case letters represent dominant alleles. Lower case letters represent recessive alleles. The dominant allele of seed shape is round; therefore the symbol will be R. The recessive allele of seed shape is wrinkled; therefore the symbol will be r.

  3. According to Mendel, an organisms receives two alleles for each gene. One allele comes from the egg, and the other from the sperm. Therefore an organism has a combination of two alleles. Genotype: the two alleles that control the phenotype of a trait (letter combination) Phenotype: how a trait appears, or is expressed RR Rr rr

  4. Let’s try another example: In Mendel’s experiment, purple flowers are dominant over white flowers. • What are the possible genotypes for purple flowers? • PP or Pp • What is the possible genotype for white flowers? • pp REMEMBER, each parent contributes one allele, so there should be two in total!!!

  5. When the 2 alleles of a gene are the same, its genotype is • homozygous If the 2 alleles of a gene are different, its genotype is • heterozygous Label the following genotypes as either heterozygous or homozygous. • RR (round) = • homozygous • Rr (round) = • heterozygous • rr (wrinkled) = • homozygous

  6. A Punnett Squareis a model used to predict possible genotypes and phenotypes of offspring. Example: Tall is dominant over short. • What possible genotypes could we have if the parent were tall? • TT or Tt • What possible genotype could we have if the parent were short? • tt

  7. Let’s say the mother is homozygous tall. Her genotype would be ___________ • And let’s say the father is heterozygous tall. His genotype would be _____________

  8. Write the parent’s genotypes in the correct location in the Punnett Square below. T T Mom’s alleles T t Dad’s alleles Offspring = __________________________________

  9. You can use the Punnett square to determine the probability that offspring with a certain combination of alleles will result. (Use the Punnett square to help you fill in the charts)

  10. With this information, you can determine the probability of appearance in the offspring.

  11. Heredity is Complicated… • Unfortunately, it is not always so black and white. There are times that neither allele is dominant or recessive. Codominance is when both alleles can be observed in a phenotype.

  12. Punnett Squares

  13. And Sometimes Even More Complicated… • Sometimes there can be a gray area where neither allele dominates the other. • Incomplete dominanceis when the offspring’s phenotype is a combination of the parents’ phenotypes.

  14. Punnett Squares

More Related