Chapter Eleven: Heredity

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Transcription:

Genetics

Chapter Eleven: Heredity 11.1 Traits 11.2 Predicting Heredity 11.3 Other Patterns of Inheritance

Investigation 11A Observing Human Traits How much do traits vary in your classroom?

11.1 Traits A trait is a characteristic that an organism can pass on to its offspring. What type of earlobe did you inherit from your parents?

11.1 Traits Dog breeders select certain traits to produce dogs for different purposes.

11.1 Heredity Ancient dog breeders thought that the traits inherited by a dog were a blend of those from the mother and father. An organism s heredity is the set of traits it receives from its parents. Today we know that heredity is not so simple.

11.1 Genetics Genetics is the study of heredity. A monk named Gregor Mendel was one of the first to experiment with heredity. He is often called the Father of Genetics.

11.1 The priest and the pea Mendel carefully studied pea plants in the monastery garden. He noticed peas had 2 forms of a trait. Flower color was purple or Seed shape was or Seed color was or green Pod color was green or

11.1 The priest and the pea Mendel noticed that a trait from the parent pea plant did not always show up in the offspring (1 st generation). Mendel wanted to find out why traits disappeared and then appeared again.

11.1 Pollination Flowering plants reproduce by pollination. During pollination, pollen from the male part of the plant is carried to the female part of the plant called the ovule. What are 3 ways pollen can be transferred?

11.1 True Breeding Plants For his experiments, Mendel was careful to start out with true breeding parent plants. A true-breeding plant with purple flowers will only produce plants with purple flowers.

11.1 Cross-Pollination To better control his experiments, Mendel used a method called cross-pollination. The parts of the flower that contain pollen (the anthers) were removed so the flower could not self-pollinate.

11.1 Cross-Pollination Then Mendel used pollen from true breeding plants with different traits to produce new combinations of offspring.

11.1 First Generation When Mendel crossed true-breeding, purpleflowered plants with true-breeding, whiteflowered plants, the first generation produced all purple-flowered plants! Mendel got similar results for the other traits.

11.1 Second Generation When the purpleflowered plants of the offspring self-pollinated, white flowers reappeared in the second generation. Mendel was careful. How could this happen?

11.1 Ratios Mendel compared the number of purple to white flowers by counting them. A ratio is a way to compare two numbers. Here s how Mendel calculated the ratio of purple flowers to white flowers:

11.1 Mendel s Conclusions From his results, Mendel proved that all traits do not blend in a 50/50 ratio. Pea plants preferred one trait over another in a ratio of about 3 to 1. Mendel concluded that pea traits like flower color were determined by separate units. Today, we call those units genes.

11.1 Dominant and Recessive Alleles We call the different forms of the same trait alleles. Mendel showed us that the dominant allele (purple flower) appears in peas more often and seems to hide the other form (white flower). A recessive allele is the form of a gene that gets hidden if the dominant allele is present.

11.1 Dominant and Recessive Alleles If both alleles for flower color get passed to the offspring, then the dominant allele that causes purple flowers hides the recessive allele. No white flowers show up in the next generation.

11.1 Genotype Mendel used letters to show how the different forms of a gene were passed to the next generation. Mendel discovered that a pea plant with purple flowers could have a genotype of either PP or Pp. A pea plant with white flowers could only have a genotype of pp. An organism s genotype shows the alleles of a gene it contains.

An organism s phenotype is the form of a trait that is visible. 11.1 Phenotype For flower color, a pea plant can show a phenotype of purple or white flowers.

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