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11-1 The Work of Gregory Mendel

Explore the groundbreaking work of Gregory Mendel in genetics, the study of heredity, which is essential to understanding biology. Learn about genes, dominance, segregation, and the principles that determine traits in plants.

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11-1 The Work of Gregory Mendel

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  1. Flora Biology I 11-1The Work of Gregory Mendel

  2. Genetics • Genetics – the study of heredity • Essential to understanding biology

  3. Mendel • Mendel knew the following: • Each part of each flower produces pollen (anther) • Other portions produce female reproduction cells • The two join and fertilization occurs • Gametes – sex cell • Fertilization – male and female reproduction cells join to form a new cell • True-breeding – if allowed to self-pollinate, they would produce offspring identical to themselves

  4. Genes and Dominance • Mendel studied plant traits • Trait – specific characteristic of an organism • Ex: seed color, plant height, etc. • Mendel studied 7 traits: • Seed shape • Seed color • Seed coat • Pod shape • Pod color • Flower position • Plant height

  5. Cont. • Mendel crossed plants with these seven contrasting traits and studied their offspring • Parents – called “P” generation • Offspring – called “F1” generation A cross between parents with different traits are known as hybrids

  6. Mendel’s Two Conclusions • Biological inheritance is determined by factors that are passed on from one generation to the next • These traits are called genes • Genes – sequence of DNA that codes for a specific protein thus determining the trait • Some genes have contrasting forms called alleles • Alleles – one of a number of different forms of a gene

  7. Cont. Mendel’s Two Conclusions • The principal of dominance states that some alleles are dominant and others are recessive • An organism with a dominant allele for a specific trait will always exhibit that form of that trait. • Recessive alleles will only exhibit that trait when the dominant allele is absent • Ex: Mendel’s Experiment

  8. Segregation • Did the alleles present in the P generation disappear from the F1 generation? • Mendel allowed 7 kinds of F1 hybrid plants to self-pollinate producing an F2 generation • See page 265

  9. Law of Segregation • when any individual produces gametes, the copies of a gene separate, so that each gamete receives only one copy. A gamete will receive one allele or the other • Each F1 plant produces two types of gametes • Ex: Tt x Tt

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