chapter 4

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Created by
James Barlow

Cards (22)

  • Binary fission

    A type of reproduction in which the cell grows to double its size and then divides into 2 identical cells
  • Prokaryotes reproduce using Binary fission
  • Binary fission

    1. The single circular chromosome begins to replicate at the origin of replication
    2. As the chromosome replicates the cell elongates
    3. Once the replication is complete and the cell is twice the size, proteins cause the plasma membrane to pinch inwards
    4. Dividing the parent cell into 2 identical daughter cells
  • Binary fission allows for prokaryotic cells to replicate
  • Eukaryotic cell cycle

    Consists of interphase (G1, S, and G2 phases) followed by mitosis, and cytokinesis, for cell division
  • Eukaryotic cell cycle

    • Allows cells to grow, replicate their DNA, and divide into two daughter cells for reproduction or tissue renewal
  • G1 phase

    The cell decides if it will split or not, once it passes this checkpoint it moves into the S phase and is committed to dividing
  • G1 checkpoint

    1. The cell examines if the internal and external environment of the cell are right for division
    2. The cell looks at: Growth factors, Cell size, Nutrients, DNA damage
  • G2 phase

    Before the cell goes into mitosis, the cell completes some final checks: To determine if DNA is damaged, To determine if DNA replication has happened correctly, Proteins have been synthesised that are required for mitosis, Cell size is large enough
  • If there is damage or DNA replication has not been completed correctly

    The cycle will pause at this point and try to repair the damage or let DNA replication finish
  • If the DNA can not be repaired
    The cell will undergo apoptosis to prevent damage being passed onto daughter cells
  • M phase

    The cell checks whether the sister chromatids are correctly attached to the spindle microtubules
  • Prophase
    Chromatin condenses into visible chromosomes, nuclear envelope breaks down, spindle fibbers form
  • Metaphase
    Chromosomes align at the metaphase plate, spindle fibbers attach to centromeres
  • Anaphase
    Sister chromatids separate and move towards opposite poles of the cell
  • Telophase
    Chromatids reach the poles, nuclear envelopes re-form around the separated chromosomes, and spindle fibbers disassemble
  • Cytokinesis
    The final stage of the cell division process in which the cytoplasm of the parent cell divides, resulting in the formation of two daughter cells
  • Apoptosis
    Programmed cell death, characterized by controlled cellular dismantling and fragmentation, often serving regulatory functions in development, homeostasis, and immunity
  • Apoptosis can be triggered by

    Various factors including developmental signals, cellular damage, DNA mutations, and stress responses within the organism
  • Disruption to the regulation of the cell cycle
    Can lead to uncontrolled cell division or apoptosis
  • Stem cells
    Unspecialised cells able to divide and differentiate into other cell types
  • Stem cells are undifferentiated cells capable of self-renewal and differentiation into various specialized cell types, playing crucial roles in development and regeneration