Topic 1 key concepts biology

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beyoncé 🪼

Cards (68)

  • Eukaryotic cells
    Animal and plant cells
  • Prokaryotic cells
    Bacterial cells
  • Structures in eukaryotic cells
    • Cell membrane
    • Cytoplasm
    • Nucleus containing DNA
  • Structures in prokaryotic cells
    • Cell wall
    • Cell membrane
    • Cytoplasm
    • Single circular strand of DNA and plasmids
  • Organelles
    Structures in a cell that have different functions
  • Organelles in animal and plant cells
    • Nucleus
    • Cytoplasm
    • Cell membrane
    • Mitochondria
    • Ribosomes
  • Organelles only in plant cells
    • Chloroplasts
    • Permanent vacuole
    • Cell wall
  • Structures in bacterial cells

    • Cytoplasm
    • Cell membrane
    • Cell wall
    • Chromosomal DNA (circular)
    • Plasmids
    • Flagella
  • Differentiation
    A process that involves the cell gaining new sub-cellular structures in order for it to be suited to its role
  • Specialised animal cells
    • Sperm cells
    • Egg cells
    • Ciliated epithelial cells
  • Specialised plant cells
    • Root hair cells
    • Xylem cells
    • Phloem cells
  • Light microscope
    Has two lenses, usually illuminated from underneath, maximum magnification of 2000x and resolving power of 200nm
  • Electron microscope
    Uses electrons instead of light, can achieve magnification up to 2,000,000x and resolving power of 10nm (SEM) and 0.2nm (TEM)
  • Electron microscopes have allowed the discovery of viruses and detailed examination of proteins
  • Magnification
    Magnification of the eyepiece lens x magnification of the objective lens
  • Size of an object
    Size of image/magnification = size of object
  • Standard form
    Multiplying a number by a power of 10 to get bigger or smaller, with the 'number' between 1 and 10
  • Orders of magnitude
    Understanding how much bigger or smaller one object is compared to another
  • Prefixes
    Go before units of measurement to show the multiple of the unit
  • Estimation
    Useful when we don't know the exact number of something, by taking a sample and extrapolating
  • Parts of a light microscope
    • Eyepiece
    • Barrel
    • Turret
    • Lens
    • Stage
  • Using a light microscope
    1. Place slide on stage
    2. Look through eyepiece
    3. Turn focus wheel
    4. Start with lowest magnification, then increase
  • Preparing a slide
    1. Take thin layer of cells
    2. Add chemical stain
    3. Apply cells to slide
    4. Lower coverslip
  • Enzymes
    Biological catalysts that increase the rate of reaction without being consumed
  • Active site
    The uniquely shaped site on an enzyme where the substrate binds
  • Lock and key hypothesis
    The shape of the substrate is complementary to the active site, forming an enzyme-substrate complex
  • Ion
    Measured size / actual size
  • Actual size
    Measured size / magnification
  • Total magnification
    Objective lens magnification x eyepiece lens magnification
  • 1.7, 1.8 and 1.9 - Enzymes: Mechanisms, Denaturation and Factors Affecting Enzyme Activity
  • Enzymes
    Biological catalysts (a substance that increases the rate of reaction without being used up)
  • Enzymes
    • They are present in many reactions - allowing them to be controlled
    • They can both break up large molecules and join small ones
    • They are protein molecules and the shape of the enzyme is vital to its function
  • Active site
    Where the substrate binds
  • Lock and Key Hypothesis
    1. The shape of the substrate is complementary to the shape of the active site (matches the shape of the active site), so when they bond it forms an enzyme-substrate complex
    2. Once bound, the reaction the reaction takes place and the products are released from the surface of the enzyme
  • Enzymes can only catalyse (speed up) reactions when they bind to a substrate that has a complementary shape, as this is the only way that the substrate will fit into the active site
  • Enzyme specificity
    Enzymes can only catalyse reactions when they bind to a substrate that has a complementary shape
  • Factors enzymes require
    • Optimum pH
    • Optimum temperature
    • Optimum substrate concentration
  • Optimum temperature in humans
    A range around 37 degrees Celsius (body temperature)
  • As temperature increases
    The rate of reaction increases up to the optimum, but above this temperature it rapidly decreases and eventually the reaction stops
  • Denaturation
    When the bonds that hold the enzyme together break, changing the shape of the active site so the substrate can no longer 'fit into' the enzyme