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First teaching 2023

First exams 2025

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Cell Organelles (SL IB Biology)

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Cara Head

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Cara Head

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Cell Organelles

Compartmentalised cell structure

  • Eukaryotic cells have a more complex ultrastructure than prokaryotic cells
  • The cytoplasm of eukaryotic cells is divided up into membrane-bound compartments called organelles. These compartments are either bound by a single or double membrane
  • Due to the absence of a membrane the following structures are not considered organelles
    • Cell wall
    • Cytoskeleton
    • Cytoplasm
  • Eukaryotic cells have a number of compartmentalised organelles including:
    • The nucleus
    • Vesicles
    • Ribosomes
    • The plasma membrane
  • The compartmentalisation of the cell is advantageous as it allows:
    • Enzymes and substrates to be localised and therefore available at higher concentrations
    • Damaging substances to be kept separated, e.g. digestive enzymes are stored in lysosomes so they do not digest the cell
    • Optimal conditions to be maintained for certain processes e.g. optimal pH for digestive enzymes
    • The numbers and location of organelles to be altered depending on requirements of the cell

Eukaryotic Animal Cell Structure Diagram

Animal cell, downloadable AS & A Level Biology revision notes

The ultrastructure of an animal cell shows a densely packed cell of compartmentalised organelles

Eukaryotic Plant Cell Structure Diagram

Plant cell, downloadable AS & A Level Biology revision notes

Plant cells have a larger, more regular structure in comparison to animal cells which also contains compartmentalised organelles

Organelle Adaptations

  • In complex cells organelles can become specialised for specific functions
  • These specialised organelles have specific adaptations to help them carry out their functions
  • For example, the structure of a organelle is adapted to help it carry out its function (this is why each organelle looks very different from each other)
  • The separation of organelles from the rest of the cell, via a membrane (sometimes double), is important as it allows the organelle to carry out its own chemical reactions without interference from the rest of the cell

NOS: Students should recognise that progress in science often follows development of new techniques

  • Study of the function of individual organelles has become possible following the invention of ultracentrifuges and methods of using them for cell fractionation had been developed
    • In order to study cells at a molecular level we need to be able to separate out each compartment and study them individually in a process called cell fractionation
    • To do this a pure sample is needed (containing only the specific organelle being studied)
    • This process involves breaking up a suitable sample of tissue and then centrifuging the mixture at different speeds
    • Cell fractionation can be split into three stages:
      • Homogenisation - the cell sample is broken up using a homogeniser which is a blender-like machine 
      • Filtration - the homogenate (containing the homogenised cells) is then filtered through a gauze
      • Ultracentrifugation - the filtrate is placed into a tube and the tube is placed in a centrifuge
        • A centrifuge is a machine that separates materials by spinning
        • This speed can be altered to separate different components of the cell based on their molecular weight
        • Until this was invented, research into separate organelles was limited

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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