Topic 2 bio

    avatar
    Created by
    Jency Vales

    Cards (107)

    • Cell membrane function

      Selectively permeable barrier controls passage of substances in and out the cell
      View source
    • Cell membrane structure

      Phospholipid bilayer with embedded intrinsic & extrinsic proteins
      View source
    • Nucleus structure
      Nuclear pores, nucleolus, DNA and nuclear envelope
      View source
    • Nucleus function
      Site of transcription & pre-mRNA splicing - mRNA production, site of DNA replication, nucleolus makes ribosomes, nuclear pore allows movement of substances to/from cytoplasm
      View source
    • Mitochondria structure

      Double membrane with inner membrane folded into cristae, 70S ribosomes in matrix, small, circular DNA, enzymes in matrix
      View source
    • Mitochondria function
      Site of aerobic respiration, produces ATP
      View source
    • Chloroplast structure
      Thylakoid membranes stacked to form grana, linked by lamellae, stroma contains enzymes, contains starch granules, small circular DNA and 70S ribosomes
      View source
    • Chloroplast function

      Chlorophyll absorbs light for photosynthesis to produce organic molecules (glucose)
      View source
    • Golgi apparatus structure
      Fluid-filled, membrane-bound sacs (horseshoe shaped), vesicles at edge
      View source
    • Golgi apparatus function
      Modifies proteins received from RER, packages them into vesicles to transport to cell membrane for exocytosis, makes lysosomes
      View source
    • Lysosome structure
      Type of Golgi vesicle containing digestive enzymes
      View source
    • Lysosome function
      Contains digestive enzymes e.g lysozymes to hydrolyse pathogens/cell waste products
      View source
    • Rough endoplasmic reticulum function
      Site of protein synthesis, folds polypeptides to secondary & tertiary structures, packaging into vesicles to transport to Golgi
      View source
    • Smooth endoplasmic reticulum function
      Synthesises and processes lipids
      View source
    • Cell wall function
      Provides structural strength, rigidity and support to cell, helps resist osmotic pressures
      View source
    • Ribosome structure
      Small and large subunit made of protein and rRNA, free floating in cytoplasm & bound to RER, 70S in prokaryotes, mitochondria and chloroplasts, 80S in eukaryotes
      View source
    • Ribosome function
      Site of translation in protein synthesis
      View source
    • Rough endoplasmic reticulum structure
      System of membranes with bound ribosomes, continuous with nucleus
      View source
    • Smooth endoplasmic reticulum structure
      System of membranes with no bound ribosomes
      View source
    • Cell wall structure
      In plant, fungal and bacterial cells, plants - made of microfibrils of cellulose, fungi - made of chitin, bacteria - murein
      View source
    • Cell vacuole structure

      Fluid-filled, surrounded by a single membrane called a tonoplast
      View source
    • Contrast prokaryotic & eukaryotic cells
      • Prokaryotic cells are smaller, prokaryotes have no membrane bound organelles, prokaryotes have smaller 70S ribosomes, prokaryotes have no nucleus - circular DNA not associated with histones, prokaryotic cell wall made of murein instead of cellulose/chitin
      View source
    • Occasional features of prokaryotes
      • Plasmids - loops of DNA, capsule surrounding cell wall - helps agglutination + adds protection, flagella for movement
      View source
    • Cell vacuole function
      Makes cells turgid - structural support, temporary store of sugars, amino acids, coloured pigments attract pollinators
      View source
    • Protein carriers
      Bind with a molecule, e.g. glucose, which causes a change in the shape of the protein, this change in shape enables the molecule to be released to the other side of the membrane
      View source
    • Protein channels
      Tubes filled with water enabling water-soluble ions to pass through the membrane, selective, channel proteins only open in the presence of certain ions when they bind to the protein
      View source
    • Features of viruses
      Non living and acellular, contain genetic material, capsid and attachment proteins, some (HIV) contain a lipid envelope + enzymes (reverse transcriptase)
      View source
    • 3 types of microscopes
      Optical (light) microscopes, Scanning electron microscopes (SEM), Transmission electron microscopes (TEM)
      View source
    • Magnification
      How many times larger the image is compared to the object, calculated by equation
      View source
    • Resolution
      The minimum distance between two objects in which they can still be viewed as separate, determined by wavelength of light (for optical microscopes) or electrons (for electron microcopes)
      View source
    • Optical microscopes
      Beam of light used to create image, glass lens used for focusing, 2D coloured image produced
      View source
    • Evaluate optical microscopes
      • Poorer resolution as long wavelength of light - small organelles not visible, lower magnification, can view living samples, simple staining method, vaccum not required
      View source
    • Transmission electron microscopes
      Beam of electrons passes through the sample used to create an image, focused using electromagnets, 2D, black & white image produced, can see internal ultrastructure of cell, structures absorb electrons and appear dark
      View source
    • Evaluate TEMs
      • Highest resolving power, high magnification, extremely thin specimens required, complex staining method, specimen must be dead, vaccum required
      View source
    • Scanning electron microscopes
      Beam of electrons pass across sample used to create image, focused using electromagnets, 3D, black and white image produced, electrons scattered across specimen producing image
      View source
    • Evaluate SEMs
      • High resolving power, high magnification, thick specimens usable, complex staining method, specimen must be dead, vaccum required
      View source
    • Why calibrate eyepiece graticule?

      Calibration of the eyepiece is required each time the objective lens is changed, calibrate to work out the distance between each division at that magnification
      View source
    • Purpose of cell fractionation
      Break open cells & remove cell debris, so organelles can be studied
      View source
    • Homogenisation
      Process by which cells are broken open so organelles are free to be separated, done using homogeniser (blender)
      View source
    • Homogenisation conditions
      Cold reduces enzyme activity preventing organelle digestion, Isotonic prevents movement of water by osmosis - no bursting / shrivelling of organelles, Buffered resists pH changes preventing organelle + enzyme damage
      View source
    See similar decks