Gregor Mendel and the History of Genetics

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Created by
inaaya

Cards (18)

  • Who is considered the founding father of genetics?
    Gregor Mendel
  • What was Gregor Mendel's profession?

    He was a scientist and a monk
  • What did farmers know about crossbreeding by the 1800s?

    It could lead to more favorable offspring
  • What type of plants did Mendel experiment with?
    Pea plants
  • What traits did Mendel study in pea plants?

    Height, flower color, and pod color
  • What was the result when Mendel crossed a green pea plant with a yellow pea plant?

    All offspring were yellow pea plants
  • What happened when Mendel crossed two yellow pea plants from the first generation?

    Three quarters of the offspring were yellow and one quarter were green
  • What did Mendel conclude about hereditary units?

    They could be dominant or recessive
  • When are recessive hereditary units expressed?

    When the plant receives the unit from both parents
  • Why did the yellow pea plants in the second generation still have hereditary units for green pods?

    Because they were recessive and not expressed
  • What did Mendel's experiments suggest about the inheritance of traits?

    Many characteristics are passed down in a dominant-recessive way
  • What was the scientific understanding of genetics during Mendel's time?

    Scientists did not know about DNA or genes
  • What significant discovery was made towards the end of the 1800s?
    Scientists discovered chromosomes
  • What did scientists notice about chromosomes in the early 1900s?

    They noticed similarities between chromosomes and Mendel's hereditary units
  • What term do we now use for Mendel's hereditary units?

    Genes
  • What major discovery was made in the 1950s regarding DNA?

    The double helix structure of DNA was discovered
  • When was the entire human genome sequenced?

    In 2003
  • What is the history of genetics as outlined in the video?
    • Gregor Mendel's experiments with pea plants in the 1800s
    • Discovery of chromosomes towards the end of the 1800s
    • Recognition of the relationship between chromosomes and genes in the early 1900s
    • Discovery of the double helix structure of DNA in the 1950s
    • Sequencing of the entire human genome in 2003