cell structure

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    Created by
    Evie squires

    Cards (49)

    • nucleus structure
      Largest organelle.
      Surrounded by the nuclear envelope;
      contains fluid nucleoplasm,
      nucleoli,
      chromatin,
      Nuclear pores
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    • Nucleus function
      contains genetic material
      direct synthesis of all proteins - enzymes - so controls metabolism
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    • Mitochondria structure
      double membrane
      inner mem folded to make cristae
      contains enzymes for membranes
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    • mitochondria function
      contains small amounts DNA.
      Energy stored in the bonds of molecules is made available to use by ATP.
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    • vesicles and lysosomes structure
      one membrane thin sacks with fluid inside
      lysosome - specialised form of vesicle that contain hydrolytic enzymes
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    • what are hydrolytic enzymes
      break down pathogens
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    • vesicles and lysosome function
      vesicles transport materials inside the cell
      lysosomes break down waste and pathogens
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    • cytoskeleton
      network of fibers for shape and stability and mechanical strength- made up of of three components
      microfilaments
      microtubules
      intermediate fibres
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    • intermediate fibers functions
      gives mechanical strength to cells
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    • microfilaments functions
      cytokinesis
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    • Centrioles structure
      paired cylindrical bodies, each composed of nine triplets of microtubules
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    • centrioles function
      organize DNA during cell division
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    • flagella and cillia structure
      both long cells. flagella and longer but cillia are present in greater numbers
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    • flagella and cillia function
      flagella - cell mobility sometimes to detect chemical changes
      cillia - stationary - on the surface for sensory detecting or
      - mobile that beat creating currents so things move
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    • ribosomes structure
      free floating or attached to an endoplasmic reticulum
      not surrounded by a membrane
      made of RNA in the nucleus of a cell
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    • ribosomes function and structure
      site if protein synthesis
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    • endoplasmic reticulum structure

      network of membranes and flattened sacs called cisterae connected to the outer membrane of the nucleus
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    • smooth endoplasmic reticulum function
      lipid and carbohydrate synthesis and storage
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    • rough endoplasmic reticulum
      has ribosomes bound to the surface
      synthesis and transport of proteins
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    • Golgi Apparatus structure
      flattened sack. compact and made of cisternae
      continuously changing
      no ribosomes
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    • Golgi Apparatus function
      modify proteins after receiving from the ER
      packages them into vesicles and processes proteins
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    • cellulose cell wall structure
      made of cellulose. freely permeable so substances can pass through it
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    • cellulose cell wall function

      makes the cell rigid and a defence mechanism against pathogens (in fungi it's made of chitin)
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    • vacuole structure
      membrane lined sacs containing cell sap and water
      the membrane is called tonoplast and it's selectively permeable so small molecules fit
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    • vacuole function
      keeps it rigid and turgid
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    • chloroplasts structure
      double membrane (envelope) with fluid - stroma
      internal network of membranes - thylakoids
      thylakoids stacked to make granum that contain chlorophyll
      grana joined by lamellae
      they also contain dna and ribosomes
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    • chloroplasts function
      photosynthesis
      found in green parts of plant
      make their own proteins
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    • is image produced 2D or 3D in TEM?
      2D - electrons pas through
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    • is image produced 2D or 3D in SEM
      3D - electrons bounce off
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    • thickness of specimen in TEM
      thin so electrons can pass through
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    • thickness of specimen in SEM
      can be thicker because electrons only scan the surface
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    • why must tissues be observed in a vacuum and why is this a disadvantage?
      because air absorbs electrons and because specimens have to be dead
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    • what is an artefact and give an example and why they are bad
      a structural detail that has appeared by the process of a sample - cracks or air bubbles - they could be confused with real structural details
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    • why does the light microscope have a limited resolution?
      visible light has a shorter wavelength
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    • laser scanning microscopes work by:
      adding fluorescent dye to a specimen (maybe lots of different colours), can produce 3d and see objects inside cells
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    • what is the magnification
      ratio of objects image size to actual size
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    • resolution
      measure of the clarity of the image or the smallest distance two objects can be apart while still appearing as two objects
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    • equation for magnification
      magnification = size of image/size of object
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    • why do we add stain to specimens
      to increase contrast to see organelles better
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    • lowest to highest magnification
      light, TEM, SEM
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