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Meiosis and Variation

VERY GOOD YOUTUBE VIDEO: https://youtu.be/8yyxn0ERtBg

Basic Overview:

Meiosis is the splitting of sex cells during sexual reproduction to pass on 23 chromosomes to the offspring.

MEIOSIS IS MITOSIS BUT FOR SEX CELLS (GAMETES)

  • Results in 4 daughter cells that are haploid and have novel chromatids due to crossing over.

    • Long explanation: One full diploid sex cell from each parent (one sperm, one egg) splits twice creating 4 new cells called daughter cells. This is done in three phases: interphase, meiosis one, and meiosis two.

      • In interphase, a diploid sex cell will double its chromosomes from 46 to 92 in one cell. These new (novel) chromosomes are still the same as before just twice the number (homologous).

      • In meiosis one, the cell with 92 chromosomes will split into two diploid daughter cells with non-homologous chromosomes.

      • In meiosis two, the two diploid daughter cells will split again ending the entire cycle by creating 4 non-homologous haploid daughter cells ready to be merged with another haploid cell of a sperm or egg to create a diploid zygote.

The Three Methods for Genetic Variation

  1. Independent Assortment - genes that do not reside on the same chromosome may sort independently (anaphase 1 of meiosis)

    1. the formula for possible combinations is 2^n, where n = # of haploid chromosomes

  2. Random Fertilization - only one sperm will fertilze the egg and turn the haploid into a diploid. It’s random which sperm will get there.

    1. fertilization is the opposite process of meiosis

  3. Crossing Over - genetic information may be exchanged between homologues, further shuffling the genetic information of the eventual gamete (prophase 1)

    1. uses non-sister chromatids

These three process are found in all eukaryotes!

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Meiosis and Variation

VERY GOOD YOUTUBE VIDEO: https://youtu.be/8yyxn0ERtBg

Basic Overview:

Meiosis is the splitting of sex cells during sexual reproduction to pass on 23 chromosomes to the offspring.

MEIOSIS IS MITOSIS BUT FOR SEX CELLS (GAMETES)

  • Results in 4 daughter cells that are haploid and have novel chromatids due to crossing over.

    • Long explanation: One full diploid sex cell from each parent (one sperm, one egg) splits twice creating 4 new cells called daughter cells. This is done in three phases: interphase, meiosis one, and meiosis two.

      • In interphase, a diploid sex cell will double its chromosomes from 46 to 92 in one cell. These new (novel) chromosomes are still the same as before just twice the number (homologous).

      • In meiosis one, the cell with 92 chromosomes will split into two diploid daughter cells with non-homologous chromosomes.

      • In meiosis two, the two diploid daughter cells will split again ending the entire cycle by creating 4 non-homologous haploid daughter cells ready to be merged with another haploid cell of a sperm or egg to create a diploid zygote.

The Three Methods for Genetic Variation

  1. Independent Assortment - genes that do not reside on the same chromosome may sort independently (anaphase 1 of meiosis)

    1. the formula for possible combinations is 2^n, where n = # of haploid chromosomes

  2. Random Fertilization - only one sperm will fertilze the egg and turn the haploid into a diploid. It’s random which sperm will get there.

    1. fertilization is the opposite process of meiosis

  3. Crossing Over - genetic information may be exchanged between homologues, further shuffling the genetic information of the eventual gamete (prophase 1)

    1. uses non-sister chromatids

These three process are found in all eukaryotes!