Cell biology

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Created by
Jess

Cards (35)

  • 2 examples of eukaryotic cells
    Plant cell
    Animal cell
  • Function of the cell membrane
    Controls the movement of substances in and out of a cell
  • Function of the nucleus
    Contains DNA
  • Function of the mitochondria
    Where energy is released through respiration
  • Function of the ribosomes
    Site of protein synthesis
  • Function of cytoplasm
    Jelly like substance where chemical reactions happen
  • Function of permanent vacuole
    Contains cell sap
  • Function of chloroplasts
    Contains chlorophyll to absorb light energy for photosynthesis
  • function of cell wall
    Made of cellulose, which strengthens the cell
  • 1 Example of a prokaryotic cell
    Bacteria
  • Characteristics of light microscopes
    Uses light to form images
    Can view living samples
    Cheap
    Low res + magnification
  • Characteristics of electron microscopes
    Uses a beam of electrons to form images
    Cant view living samples
    Expensive
    High res + magnification
  • Sperm cellfunction + adaptation
    Function: fertilise an egg
    Adaptations: Tail to swim, mitochondria for energy
  • Red blood cell
    Function: transports oxygen
    Adaptations: no nucleus so more space for oxygen, haemoglobin binds to oxygen, bi-concave disk shape so more surface area
  • Muscle cell
    Function: contract and relax
    Adaptation: contains proteins which can contract, mitochondria for energy for contracting
  • Nerve cellfunction + adaptation
    Function: carry electrical impulses
    Adaptations: dendrites to make connections, myelin sheath insulates the axon to increase transmission
  • Root hair cell
    Function: Absorb mineral ions and water
    Adaptations: Long, increases surface area for absorption, lots of mitochondria for energy
  • Palisade cell function + adaptation
    Function: enable photosynthesis
    Adaptation: lots of chloroplasts containing chlorophyll
  • Diffusion
    Particles move from high to low concentration
    No energy required
  • Osmosis
    Water moves from low solute concentration to high solute concentration
    No energy required
    Plants
  • Active transport
    Particles move from low concentration to high concentration
    Energy needed
  • Factors affecting rate of diffusion
    Difference in concentration: steeper gradient = faster diffusion
    Temp: higher temp = faster diffusion
    Surface area of membrane: higher SA = faster diffusion
  • Why is active transport needed in plant roots?
    movement of mineral ions
    Concentration of mineral ions in the soil is lower than in the root hair cell
  • Purpose of active transport in the small intestine
    Sugars can be absorbed
  • What is a stem cell?
    An undifferentiated cell
  • Types of stem cell
    Mammals: adult stem cells, embryonic stem cells
    Plants: plant meristem
  • Adult stem cells (found, differentiate into, adv, disadv)
    Found in specific parts of body, e.g bone marrow
    Differentiate into certain types of cell e.g bone marrow stem cells can only differentiate into types of blood cell
    Adv: fewer ethical issues, relatively safe
    Disadv: Requires a donor, can only turn into certain types of cell
  • Embryonic stem cells (found, differentiate into, adv, disadv)
    Found in early human embryos
    Differentiate into any type of specialised cell in the body
    Adv: treat a wide range of diseases, usually no donor needed
    disadv: ethical issues, risk or transferring viruses
  • Plant meristem (found, differentiate into, adv, disadv)
    Found in meristem regions in the roots and shoots of plants
    Differentiate into all cell types
    Adv: can clone plants, (rare + desirable traits) quick + low cost
    disadv: cloned plants are identical, so whole crops can be destroyed by a singe disease
  • Therapeutic cloning
    Cells from a patients body are used to create cloned early embryos of themself, stem cells of this embryo can be used for medical treatments and growing new organs, same genes are parents so less likely to be rejected
  • Stage 1 of cell cycle
    Cell grows bigger, DNA replicates, increase in number of sub-cellular structrures
  • Stage 2 of the cell cycle
    Mitosis
    Complete set of chromosomes is pulled to each end of the cell
    Nucleus forms into 2
  • Stage 3 of the cell cycle
    Cytoplasm and cell membrane divide to form 2 daughter cells
  • Characteristics of eukaryotic cells
    10–100 μm
    Has a nucleus
    More complex than prokaryotic cells
    Has membrane bound organelles (eg. mitochondria)
  • Characteristics of prokaryotic cells
    0.1–5 μm
    Singular circular strand of DNA
    Much simpler than eukaryotic cells
    Has no membrane bound organelles