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Organic compounds are...
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Made up of molecules with only carbon and hydrogen
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Made up of molecules containing only carbon, hydrogen and oxygen
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Made up of molecules with many carbon atoms
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Made up of molecules made with very few carbon atoms
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Carbohydrates are inorganic compounds made up of carbon, hydrogen and oxygen
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Monosaccharides have the general formula [blank_start](CH2O)n[blank_end]. Their names are determined by the number of [blank_start]carbon[blank_end] atoms in the molecule. For example, a [blank_start]triose[blank_end] sugar has 3 carbon atoms.
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(CH2O)n
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(C2H2O)n
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(CHO4)n
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carbon
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hydrogen
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oxygen
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triose
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hexose
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pentose
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All hexose sugars have the formula C6H12O6
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A monosaccharide is
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Label the two isomers of a glucose molecule
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Tick the boxes that contain the main functions of monosaccharides
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A source of energy in respiration
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Building blocks for larger molecules
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Intermediates in reactions
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Constituents of nucleotides
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A product of respiration
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A metabolite
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storage of carbohydrates
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Disaccharides are composed of two monosaccharide units bonded together by a glycogenic bond
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Is this a condensation or hydrolysis reaction?
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Complete the table using the options below
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glucose
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in germinating seeds
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storage in plant roots
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glucose + galactose
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glucose + maltose
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mammalian milk
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To test for a reducing sugar:
1. Mix equal volumes of [blank_start]Benedict's reagent[blank_end] and sample solution
2. Heat to at least [blank_start]70[blank_end] degrees C
3. If a [blank_start]reducing[blank_end] sugar is present, the solution will turn from [blank_start]blue[blank_end] to a [blank_start]red[blank_end] precipitae
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Benedict's reagent
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iodine solution
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universal indicator
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70
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40
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60
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110
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reducing
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non-reducing
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simple
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blue
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orange
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purple
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red
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red
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blue
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orange
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white
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All monosaccharides are reducing sugars
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The test for a non-reducing sugar is:
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Add hydrochloric acid to sample and heat. Add benedict's reagent and heat again. Colour change from blue to white precipitate
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Add hydrochloric acid to sample and heat. Add benedict's reagent and heat again. Colour change from blue to red precipitate
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Add hydrochloric acid to sample and heat. Add alkali. Add benedict's reagent and heat again. Colour change from blue to white precipitate
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Add hydrochloric acid to sample and heat. Add alkali. Add benedict's reagent and heat again. Colour change from blue to red precipitate
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You can test for [blank_start]sucrose[blank_end] by adding sucrase enzymes to the sample. These enzymes [blank_start]hydrolyse[blank_end] sucrose into glucose and [blank_start]glucose[blank_end]. Adding [blank_start]benedicts reagent[blank_end] will show if sucrose is present and the approximate concentration of the solution.
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sucrose
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maltose
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hydrolyse
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condense
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glucose
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fructose
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benedicts reagent
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iodine solution
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Polysaccharides are formed from 5 monosaccharides
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Glucose causes a change in water potential in cells. This is avoided by converting glucose to starch for storage. How does this help the plant? (tick the boxes containing the correct answers)
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Starch is insoluble - it has no osmotic effect
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Starch cannot diffuse out of the cell
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Starch is a compact molecule and can be stored in small spaces
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Starch carries a lot of energy in C-C and C-H bonds
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Starch is unreactive and therefore won't combine with other molecules
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Starch is made of [blank_start]alpha[blank_end]-glucose molecules bonded together in two different ways, forming [blank_start]amylose[blank_end] and amylopectin.
-Amylose is linear and [blank_start]unbranched[blank_end] with 1-[blank_start]4[blank_end] glycosidic bonds. It coils to form a [blank_start]helix[blank_end]
-Amylopectin has chains of 1-[blank_start]4[blank_end] glycosidic bonds. It also has branches which are joined to the 1-4 chain by 1-[blank_start]6[blank_end] glycosidic bonds. Amylopectin is a [blank_start]branched[blank_end] molecule
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alpha
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beta
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amylose
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amylase
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unbranched
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branched
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4
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3
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2
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5
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6
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helix
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cyclic molecule
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clump
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4
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6
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3
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6
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4
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branched
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linear
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You can test for starch by adding iodine solution. The colour change will be orange/brown to blue/purple
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The main storage product in animals is [blank_start]glycogen[blank_end]. It has a1-4 and a1-6 glycosidic bonds making it similar to [blank_start]amylopectin[blank_end], however it has shorter 1-4 chains making it more [blank_start]branched[blank_end].
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glycogen
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chitin
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starch
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cellulose
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amylopectin
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amylose
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branched
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linear
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Cellulose is a structural polysaccharide. It is an important component of [blank_start]cell walls[blank_end] in plants. Cellulose is made up of [blank_start]beta[blank_end]-glucose monomers joined by beta-1-[blank_start]4[blank_end]-glycosidic bonds. The beta link rotates each monosaccharide by [blank_start]180[blank_end] degrees. [blank_start]Hydrogen[blank_end] bonds form between the OH groups on adjacent molecules in parallel chains giving strength. When cellulose molcules become cross linked bundles called microfibrils form. Microfibrilis bundle up to form [blank_start]fibres[blank_end].
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cell walls
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cell membranes
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beta
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alpha
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4
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6
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180
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120
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90
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Hydrogen
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glycosidic
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fibres
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fibrils
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Chitin is a polysaccharide found in the exoskeletons of insects and the cell walls of fungi
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Label this diagram of a chitin molecule