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Meiosis in Animal & Plant Cells (CIE A Level Biology)

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Cara Head

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Cara Head

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Meiosis in Animal & Plant Cells

  • Meiosis is a form of nuclear division that results in the production of haploid cells from diploid cells
  • It produces gametes in plants and animals that are used in sexual reproduction
  • It has many similarities to mitosis however it has two divisions: meiosis I and meiosis II
  • Within each division there are the following stages: prophase, metaphase, anaphase and telophase

First division of meiosis: Meiosis I

Prophase I

  • DNA condenses and becomes visible as chromosomes
  • DNA replication has already occurred so each chromosome consists of two sister chromatids joined together by a centromere
  • The chromosomes are arranged side by side in homologous pairs
    • A pair of homologous chromosomes is called a bivalent
  • As the homologous chromosomes are very close together the crossing over of non-sister chromatids may occur. The point at which the crossing over occurs is called the chiasma (chiasmata; plural)
  • In this stage centrioles migrate to opposite poles and the spindle is formed
  • The nuclear envelope breaks down and the nucleolus disintegrates

Metaphase I

  • The bivalents line up along the equator of the spindle, with the spindle fibres attached to the centromeres

Anaphase I

  • The homologous pairs of chromosomes are separated as microtubules pull whole chromosomes to opposite ends of the spindle
  • The centromeres do not divide

Telophase I

  • The chromosomes arrive at opposite poles
  • Spindle fibres start to break down
  • Nuclear envelopes form around the two groups of chromosomes and nucleoli reform
  • Some plant cells go straight into meiosis II without reformation of the nucleus in telophase I

Cytokinesis

  • This is when the division of the cytoplasm occurs
  • Cell organelles also get distributed between the two developing cells
  • In animal cells:
    • The cell surface membrane pinches inwards creating a cleavage furrow in the middle of the cell which contracts, dividing the cytoplasm in half
  • In plant cells:
    • Vesicles from the Golgi apparatus gather along the equator of the spindle (the cell plate). The vesicles merge with each other to form the new cell surface membrane. Layers of cellulose are laid down to form the primary and secondary walls of the cell
  • The end product of cytokinesis in meiosis I: two haploid cells
    • These cells are haploid as they contain half the number of centromeres

Meiosis I Diagram

Meiosis I stages (1), downloadable AS & A Level Biology revision notesMeiosis I stages (2), downloadable AS & A Level Biology revision notes

The different stages of Meiosis I in an animal cell

Second division of Meiosis : Meiosis II

  • There is no interphase between meiosis I and meiosis II so the DNA is not replicated
  • The second division of meiosis is almost identical to the stages of mitosis

Prophase II

  • The nuclear envelope breaks down and chromosomes condense
  • A spindle forms at a right angle to the old one

Metaphase II

  • Chromosomes line up in a single file along the equator of the spindle

Anaphase II

  • Centromeres divide and individual chromatids are pulled to opposite poles
  • This creates four groups of chromosomes that have half the number of chromosomes compared to the original parent cell

Telophase II

  • Nuclear membranes form around each group of chromosomes

Cytokinesis

  • Cytoplasm divides as new cell surface membranes are formed creating four haploid cells
    • The cells still contain the same number of centromeres as they did at the start of meiosis I but they now only have half the number of chromosomes (previously chromatids)

Meiosis II Diagram

Meiosis II PMA, downloadable AS & A Level Biology revision notes

Prophase II, Metaphase II and Anaphase II in Meiosis II of an animal cell

Meiosis II T, downloadable AS & A Level Biology revision notes

Telophase II and cytokinesis in Meiosis II of an animal cell

Examiner Tip

Understanding the difference between chromosomes and chromatids can be difficult.

We count chromosomes by the number of centromeres present. So when the 46 chromosomes duplicate during interphase and the amount of DNA in the cell doubles there are still only 46 chromosomes present because there are still only 46 centromeres present. However, there are now 92 chromatids, which are strands of replicated chromosomes.

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Cara Head

Author: Cara Head

Expertise: Biology

Cara graduated from the University of Exeter in 2005 with a degree in Biological Sciences. She has fifteen years of experience teaching the Sciences at KS3 to KS5, and Psychology at A-Level. Cara has taught in a range of secondary schools across the South West of England before joining the team at SME. Cara is passionate about Biology and creating resources that bring the subject alive and deepen students' understanding