topic 1

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Created by
Dyandra Linton

Cards (120)

  • Monomers
    Smaller / repeating molecules from which larger molecules / polymers are made
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  • Polymers
    Molecules made up of many identical / similar molecules / monomers
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  • Condensation reaction
    1. 2 molecules join together
    2. Forming a chemical bond
    3. Releasing a water molecule
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  • Hydrolysis reaction
    1. 2 molecules separated
    2. Breaking a chemical bond
    3. Using a water molecule
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  • Polymers
    • Nylon
    • Polyethylene
    • Polyester
    • Teflon
    • Epoxy
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  • Monosaccharides
    • Glucose
    • Fructose
    • Galactose
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  • α-glucose
    OH group is below carbon 1
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  • β-glucose
    OH group is above carbon 1
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  • Disaccharides
    Two monosaccharides joined together with a glycosidic bond
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  • Common disaccharides
    • Maltose (glucose + glucose)
    • Sucrose (glucose + fructose)
    • Lactose (glucose + galactose)
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  • Polysaccharides
    Many monosaccharides joined together with glycosidic bonds
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  • Starch
    • Energy store in plant cells
    • Polysaccharide of α-glucose
    • Amylose - 1,4-glycosidic bonds → unbranched
    • Amylopectin - 1,4- and 1,6-glycosidic bonds → branched
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  • Glycogen
    • Energy store in animal cells
    • Polysaccharide made of α-glucose
    • 1,4- and 1,6-glycosidic bonds → branched
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  • Structure of starch and glycogen
    Relates to their functions
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  • Cellulose
    • Provides strength and structural support to plant / algal cell walls
    • Polysaccharide of β-glucose
    • 1,4-glycosidic bond → straight, unbranched chains
    • Chains linked in parallel by hydrogen bonds forming microfibrils
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  • Structure of cellulose relate to its function 

    beta glucose is inverted in a long unbranded chain-many hydrogen bonds link parallel strands to form microfibrils Hydrogen bonds are strong and high in number-provides strength to plant
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  • Reducing sugars
    Monosaccharides, maltose, lactose
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  • Test for reducing sugars
    1. Add Benedict's solution
    2. Heat in boiling water bath
    3. Positive result = green / yellow / orange / red precipitate
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  • Test for non-reducing sugars
    1. Do Benedict's test and stays blue / negative
    2. Heat in boiling water bath with acid (to hydrolyse into reducing sugars)
    3. Neutralise with alkali
    4. Heat in boiling water bath with Benedict's solution
    5. Positive result = green / yellow / orange / red precipitate
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  • Measure quantity of sugar in solution
    Carry out Benedict's test, filter and dry precipitate, find mass/weight
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  • Measure quantity of sugar in solution
    1. Make sugar solutions of known concentrations
    2. Heat with Benedict's solution, measure absorbance with colorimeter
    3. Plot calibration curve, measure unknown sample absorbance and read off curve
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  • Test for starch
    Add iodine dissolved in potassium iodide, positive result = blue-black
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  • Lipids
    Triglycerides and phospholipids
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  • Fatty acid
    • Variable R-group - hydrocarbon chain (saturated or unsaturated)
    • -COOH = carboxyl group
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  • Saturated fatty acid
    No C=C double bonds in hydrocarbon chain, all carbons fully saturated with hydrogen
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  • Unsaturated fatty acid
    One or more C=C double bond in hydrocarbon chain (creating bend / kink)
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  • Triglyceride formation
    1. 1 glycerol molecule and 3 fatty acids
    2. Condensation reaction
    3. Removing 3 water molecules
    4. Forming 3 ester bonds
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  • Phospholipids
    One of the fatty acids of a triglyceride is substituted by a phosphate-containing group
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  • Properties of phospholipids
    Relate to their structure
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  • Test for lipids
    Add ethanol, shake, then add water, positive = milky white emulsion
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  • Amino acid
    • COOH = carboxyl group
    • R = variable side chain / group
    • H2N = amine group
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  • The 20 amino acids that are common in all organisms differ only in their side group (R)
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  • Amino acid joining
    1. Condensation reaction
    2. Removing a water molecule
    3. Between carboxyl / COOH group of one and amine / NH2 group of another
    4. Forming a peptide bond
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  • Dipeptide
    2 amino acids joined together
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  • Polypeptide
    Many amino acids joined together
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  • Primary structure of protein
    Sequence of amino acids in a polypeptide chain, joined by peptide bonds
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  • Secondary structure of protein
    • Folding (repeating patterns) of polypeptide chain eg. alpha helix / beta pleated sheets
    • Due to hydrogen bonding between amino acids
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  • Tertiary structure of protein

    • 3D folding of polypeptide chain
    • Due to interactions between amino acid R groups (dependent on sequence of amino acids)
    • Forming hydrogen bonds, ionic bonds and disulfide bridges
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  • Quaternary structure of protein
    • More than one polypeptide chain
    • Formed by interactions between polypeptides (hydrogen bonds, ionic bonds, disulfide bridges)
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  • Test for proteins
    Add biuret reagent, positive result = purple / lilac colour (negative stays blue) → indicates presence of peptide bonds
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