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  • Eukaryotic cells
    Plant and animal cells
  • Differences between eukaryotic and prokaryotic cells
    • Prokaryotic cells are much smaller than eukaryotic cells
    • Eukaryotic cells contain membrane bound-organelles and a nucleus containing genetic material, while prokaryotes do not
  • Prokaryotic cell wall
    Composed of peptidoglycan
  • Genetic information storage in prokaryotic cells

    Found free within the cytoplasm as: Chromosomal DNA (single large loop of circular DNA), Plasmid DNA
  • Plasmids
    Small, circular loops of DNA found free in the cytoplasm and separate from the main DNA, carry genes that provide genetic advantages e.g. antibiotic resistance
  • Order of magnitude
    A power to the base 10 used to quantify and compare size
  • Centimetre (cm)
    1 x 10-2 metres
  • Millimetre (mm)
    1 × 10-3 metres
  • Micrometre (µm)
    1 × 10-6 metres
  • Nanometre (nm)
    1 x 10-9 metres
  • Difference in order of magnitude between a human hair (length = 100 µm) and the HIV virus (length = 100 nm)
    100 µm = 10-4 m, 100 nm = 10-7 m, -4-(-7) = -4 + 7 = 3
  • Components of both plant and animal cells
    • Nucleus
    • Cytoplasm
    • Cell membrane
    • Mitochondria
    • Ribosomes
  • Additional cell components found in plant cells
    • Chloroplasts
    • Permanent vacuole
    • Cell wall
  • Function of the nucleus (other than storing genetic information)
    Controls cellular activities
  • Structure of the cytoplasm
    Fluid component of the cell, contains organelles, enzymes and dissolved ions and nutrients
  • Function of the cytoplasm
    Site of cellular reactions e.g. first stage of respiration, Transport medium
  • Function of the cell membrane
    Controls the entry and exit of materials into and out of the cell
  • Function of the mitochondria
    Site of later stages of aerobic respiration in which ATP is produced
  • Chromosomes
    DNA molecules combined with proteins that contain genes which provide the instructions for protein synthesis
  • Gene
    A section of DNA which codes for a protein
  • Function of the ribosomes
    Joins amino acids in a specific order during translation for the synthesis of proteins
  • The nucleus of human body cells contains 46 chromosomes
  • The nucleus of gametes contains 23 chromosomes
  • Arrangement of chromosomes in body cell nucleus
    Arranged in pairs - 46 chromosomes form 23 pairs
  • Function of the plant cell wall
    Provides strength, Prevents the cell bursting when water enters by osmosis
  • Cell cycle
    1. Replication of DNA and synthesis of organelles
    2. Mitosis
    3. Division of cell
  • Contents of the permanent vacuole
    Cell sap (a solution of salts, sugars and organic acids)
  • Mitosis
    • Produces identical cells which all have the same genetic information
    • Produces additional cells for growth and repair
  • Function of the permanent vacuole
    Supports the cell, maintaining its turgidity
  • First stage of cell cycle
    Longest stage - cells grow and increase in mass, replicate DNA and synthesise more organelles (eg. mitochondria, ribosomes)
  • Function of chloroplasts
    Site of photosynthesis
  • Second stage of cell cycle
    Each chromosome in a pair is pulled to opposite poles of the cell, then the nucleus divides
  • Third stage of cell cycle
    The cytoplasm and cell membrane divide - two identical daughter cells are produced
  • Adaptations of sperm cells in animals
    • Haploid nucleus contains genetic information
    • Tail enables movement
    • Mitochondria provide energy for tail movement
    • Acrosome contains enzymes that digest the egg cell membrane
  • Stem cell
    An unspecialised cell which is capable of differentiating into other cell types and of self-renewal
  • Adaptations of nerve cells in animals
    • Long axon allows electrical impulses to be transmitted all over the body from the central nervous system
    • Dendrites from the cell body connect to and receive impulses from other nerve cells, muscles and glands
    • Myelin sheath insulates the axon and speeds up the transmission of impulses along the nerve cell
  • Function of embryonic stem cells
    • Can replicate themselves and differentiate into many other types of cells
    • May be able to treat conditions such as paralysis and diabetes by dividing to replace damaged cells
  • Adaptations of muscle cells in animals
    • Arrangement of protein filaments allows them to slide over each other to produce muscle contraction
    • Mitochondria to provide energy for muscle contraction
    • Merged cells in skeletal muscle allow muscle fibre contraction in unison
  • Function of adult stem cells in bone marrow
    • Can differentiate into several cell types to replace dead or damaged tissues, e.g. form different blood cell types
  • Adaptations of root hair cells in plants
    • Large surface area to absorb nutrients and water from surrounding soil
    • Thin walls that do not restrict water absorption