carbohydrates

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Created by
acacia naren

Cards (21)

  • monomers:
    smaller units that can create larger molecules
  • examples of monomers:
    monosaccharides : glucose
    nucleotides 
    amino acids
  • polymers:
    molecules made from many monomers joining together
  • examples of polymers
    polysaccharides : starch,glycogen, cellulose
    DNA & RNA
    proteins
  • condensation reaction
    joins 2 molecules together to form a bond by removing water
  • hydrolysis reaction
    breaks a bond between 2 molecules whilst using water
  • monosaccharides
    monomers from larger carbohydrates
  • examples of monosaccharides
    glucose
    galactose
    fructose
  • isomers of glucose:
  • disaccharides
    joins 2 monosaccharides via a condensation reaction forming a glycosidic bond
  • how is maltose formed
    glucose + glucose
  • how is sucrose formed
    glucose + fructose
  • how is lactose formed
    glucose + galactose
  • polysaccharides
    condensation reaction of many glucose units
  • how is amylose starch formed and its adaptation to function
    Structure:
    made from alpha glucose
    unbranched chains
    1,4 glycosidic bonds
    wounded to tight coils
    Adapted to Functions:
    helical chains = compact (used for storage)
    insoluble in water = no osmosis effect
    • large molecule = wont diffuse out of the cells
  • how is amylopectin starch formed and its adaptation to function
    Structure:
    made from a-glucose
    branched chains
    1,4 +1,6 glycosidic bonds
    Adapted to Functions:
    branched = hydrolysed rapidly to release glucose for respiration (larger SA)
    insoluble in water = no osmosis effect
    • large molecule = wont diffuse out of the cells
  • how is glycogen formed and its adaptation to function
    Structure: 
    made from a-glucose
    1,4 + 1,6 glycosidic bonds
    highly branched 
    Adapted to Functions:
    chains are coiled = compact (used for storage)
    highly branched = hydrolysed rapidly to release glucose for respiration (larger SA)
    • insoluble in water = no osmosis effect
  • how is cellulose formed and its adaptation to function
    Structure:
    made from b-glucose
    1,4 glycosidic bond
    straight unbranched chains
    (runs parallel + forms H bonds)
    H bonds formed link chains to form microfibrils
    Adapted to Functions:
    microfibrils provides strength
    resists pressure
    • eg: cell walls contains support & rigidity)
  • test for reducing sugars
    benedict's reagent:
    • add benedict's reagent (blue) to sample
    • heat in water bath
    • positive result: blue->green/yellow/organe/brown/brick red
  • test for non-reducing sugars
    if reducing sugar test is negative:
    • add dilute HCL and heat in water bath
    • neutralise by adding sodium hydrogencarbonate
    • heat sample with benedict's reagent
    positive result: colour change
    • bluegreen → yellow → orange → red
  • test for starch
    iodine test:
    • add iodine dissolved in potassium iodide solution to sample
    positive result: colour change
    • brown/orange → dark blue/black