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Transcript
› 1. Are traits inherited? › 2. If so, from whom? › 3. What are some examples of inherited traits that you see in yourself or in classmates? › 4. Human Inheritance Lab… https://www.youtube.com/watch?v=Me hz7tCxjSE An Austrian monk who was important in our understanding of biological inheritance. (1822) Genetics – scientific study of heredity Studied pea plants Terms you should know: › Character – a heritable feature (eye color) › Trait – a variety of a character (brown eyes) Flowers are used for reproduction › Male part (stamen) produces pollen › Female part (carpel) produces eggs Normally self-pollinate › Fertilize themselves True-breeding: if allowed to selfpollinate, they would have offspring identical to themselves a tall plant would produce tall plants Peas can cross-pollinate. Mendel prevented self-pollination by removing the male parts of a flower, then he dusted the flower with pollen from another plant. › Produced crosses of the two plants › Crosses between parents with different traits are called “hybrids” Each character Mendel studied had 2 possible traits He called the original pair of plants the P (“parental”) generation and the offspring from the crosses the F1 (“first filial”) generation In the F1 generation, all the plants looked like just one of the parents. › It appeared that one trait had disappeared! Two conclusions: › 1. Biological inheritance is determined by factors that are passed from one generation to the next Today these factors are called “genes” Different forms of a gene are called “alleles” Two conclusions (continued) › 2. The principle of dominance: some alleles are dominant and others are recessive Segregation › To discover if the recessive alleles were still present in the F1 generation, Mendel allowed the F1 plants to self-pollinate and produce an F2 generation › Result: The traits controlled by the recessive allele reappeared! › How? Alleles had been separated (“segregated”) from each other during gamete (sex cell) formation Segregation (continued) › The F1 plants inherited one allele from one parent and one allele from the other. › Example: If a short parent (tt) was crossed with a tall parent (TT), the offspring inherited one short allele (t) and one tall allele (T). Since it had a dominant and a recessive allele, the dominant trait (tall) was expressed. The F1 can produce two different types of gametes (those with an allele for tallness “T” and those with an allele for shortness “t”).
