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Chemicals & Life: Chemical Elements

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16 views12 pages

Chemicals & Life: Chemical Elements

Uploaded by

lesleymadiba4
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© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
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Chemicals & Life

Chemical Elements

 Most of the molecules in living organisms fall into three categories: carbohydrates,
proteins and lipids
 These all contain carbon and so are described as organic molecules

Chemical Elements Table

Large Molecules are Made from Smaller Molecules


Carbohydrates

 Long chains of simple sugars


 Glucose is a simple sugar ( a monosaccharide)
 When 2 glucose molecules join together maltose is formed (a disaccharide)
 When lots of glucose molecules join together starch, glycogen or cellulose can form
(a polysaccharide)
Glycogen, cellulose and starch are all made from glucose molecules

Fats

 Most fats (lipids) in the body are made up of triglycerides


 Their basic unit is 1 glycerol molecule chemically bonded to 3 fatty acid chains
 The fatty acids vary in size and structure
 Lipids are divided into fats (solids at room temperature) and oils (liquids at room
temperature)
Structure of a triglyceride

Proteins

 Long chains of amino acids


 There are about 20 different amino acids
 They all contain the same basic structure but the ‘R’ group is different for each
one
 When amino acids are joined together a protein is formed
 The amino acids can be arranged in any order, resulting in hundreds of thousands of
different proteins
 Even a small difference in the order of the amino acids results in a different protein
being formed
General amino acid structure

Amino acids join together to form proteins

Food Tests
Food Tests
Test for glucose (a reducing sugar)

 Add Benedict's solution into sample solution in test tube


 Heat at 60 - 70 °c in water bath for 5 minutes
 Take test tube out of water bath and observe the colour
 A positive test will show a colour change from blue to orange or brick red

The Benedict's test for glucose

Test for starch using iodine

 We can use iodine to test for the presence or absence of starch in a food sample.
The iodine test for starch

 Add drops of iodine solution to the food sample


 A positive test will show a colour change from orange-brown to blue-black

Testing a potato to prove the presence of starch

Test for protein

 Add drops of Biuret solution to the food sample


 A positive test will show a colour change from blue to violet / purple
The Biuret test for protein

Test for lipids

 Food sample is mixed with 2cm3 of ethanol and shaken


 The ethanol is added to an equal volume of cold water
 A positive test will show a cloudy emulsion forming
The ethanol test for lipids

Test for vitamin C

 Add 1cm3 of DCPIP solution to a test tube


 Add a small amount of food sample (as a solution)
 A positive test will show the blue colour of the dye disappearing
The DCPIP test for vitamin C

Exam Tip
When describing food tests in exam answers, make sure you give the starting colour of the
solution and the colour it changes to for a positive result.

DNA Structure: Extended


DOWNLOAD PDFTEST YOURSELF

Structure of a DNA Molecule: Extended

 DNA, or deoxyribonucleic acid, is the molecule that contains the instructions for the
growth and development of all organisms
 It consists of two strands of DNA wound around each other in what is called a double
helix
DNA, chromosomes and the nucleus

 The individual units of DNA are called nucleotides

A nucleotide

 All nucleotides contain the same phosphate and deoxyribose sugar, but differ from
each other in the base attached
 There are four different bases, Adenine (A), Cytosine (C), Thymine (T) and
Guanine (G)
 The bases on each strand pair up with each other, holding the two strands of DNA in
the double helix
 The bases always pair up in the same way:
o Adenine always pairs with Thymine (A-T)
o Cytosine always pairs with Guanine (C-G)

DNA base pairs

 The phosphate and sugar section of the nucleotides form the ‘backbone’ of the DNA
strand (like the sides of a ladder) and the base pairs of each strand connect to form the
rungs of the ladder
The DNA helix is made from two strands of DNA held together by hydrogen bonds

 It is this sequence of bases that holds the code for the formation of proteins

Exam Tip
You do not need to learn the names of the bases, just their letter. Make sure you know
which bonds with which, as this is the most commonly asked question about this topic

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