3.3.2 Meiosis

Cards (53)

  • During metaphase I, paired chromosomes align along the metaphase plate
  • Meiosis is essential for growth and repair.
    False
  • Order the stages of meiosis II:
    1️⃣ Prophase II
    2️⃣ Metaphase II
    3️⃣ Anaphase II
    4️⃣ Telophase II
  • What is the mechanism of crossing over in meiosis I?
    Breaks and rejoins DNA strands
  • Meiosis produces daughter cells with high genetic diversity.
  • During meiosis I, homologous chromosomes pair up and exchange genetic material via crossing over
  • What is the term for the pairing of homologous chromosomes in meiosis I?
    Synapsis
  • Crossing over occurs during prophase I.
  • In metaphase I, homologous pairs align along the metaphase plate.
  • Arrange the stages of meiosis I in the correct order.
    1️⃣ Prophase I
    2️⃣ Metaphase I
    3️⃣ Anaphase I
    4️⃣ Telophase I
  • How many haploid daughter cells are produced at the end of meiosis I?
    Two
  • In anaphase II, sister chromatids separate and move to opposite poles.
  • How many haploid daughter cells are formed at the end of meiosis II?
    Four
  • Match the stage of meiosis with its key feature.
    Prophase I ↔️ Crossing over occurs
    Metaphase I ↔️ Homologous pairs align
    Anaphase I ↔️ Homologous pairs separate
    Telophase I ↔️ Chromosomes arrive at poles
  • In anaphase I, homologous pairs move to opposite poles.
  • Arrange the stages of meiosis II in the correct order.
    1️⃣ Prophase II
    2️⃣ Metaphase II
    3️⃣ Anaphase II
    4️⃣ Telophase II
  • What is meiosis and its purpose?
    Cell division for sexual reproduction
  • During prophase I, homologous chromosomes exchange genetic material via crossing over
  • Order the stages of meiosis I:
    1️⃣ Prophase I
    2️⃣ Metaphase I
    3️⃣ Anaphase I
    4️⃣ Telophase I
  • Four diploid daughter cells are formed at the end of meiosis II.
    False
  • What contributes to genetic diversity in meiosis?
    Crossing over and independent assortment
  • Why is chromosome pairing in meiosis I important?
    Ensures crossing over
  • Homologous chromosomes align side by side, forming a tetrad.
  • Crossing over enhances genetic variation by creating new allele combinations.
  • What is the primary purpose of mitosis?
    Growth and repair
  • In mitosis, the chromosome number remains diploid.
  • Meiosis involves two divisions to produce four haploid cells.
  • What happens to the chromosome number during meiosis?
    Reduced to haploid
  • Independent assortment during meiosis creates unique gene combinations.
  • Fertilization combines the genetic material from two haploid gametes to restore the diploid chromosome number.
  • Match the stage of meiosis with its key event.
    Meiosis I ↔️ Crossing over and synapsis
    Meiosis II ↔️ Sister chromatids separate
  • How many daughter cells are produced in meiosis compared to mitosis?
    Four haploid cells
  • Meiosis is essential for sexual reproduction.
  • What is the term for the pairing of homologous chromosomes in meiosis I?
    Synapsis
  • In anaphase II, sister chromatids separate and move to opposite poles.
  • Match the feature with the correct stage of meiosis.
    Homologous chromosomes separate ↔️ Meiosis I
    Sister chromatids separate ↔️ Meiosis II
  • Stages of Meiosis I
    1️⃣ Prophase I
    2️⃣ Metaphase I
    3️⃣ Anaphase I
    4️⃣ Telophase I
  • Stages of Meiosis II
    1️⃣ Prophase II
    2️⃣ Metaphase II
    3️⃣ Anaphase II
    4️⃣ Telophase II
  • Four haploid daughter cells are formed in Meiosis II.
  • Match the feature with the correct stage of meiosis:
    Homologous chromosomes separate ↔️ Meiosis I
    Sister chromatids separate ↔️ Meiosis II