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Classwork Series and Exercises {Chemistry- SS3}: Amino Acids and Proteins

Amino Acids

Amino acids are organic compounds which contain both an amino group and a carboxyl group, that is, any of a group of organic molecules that consist of a basic amino group (−NH2), an acidic carboxyl group (−COOH). Each molecule contains a central carbon (C) atom, termed the α-carbon, to which both an amino and a carboxyl group are attached. The remaining two bonds of the α-carbon atom are generally satisfied by a hydrogen (H) atom and the R group. The formula of a general amino acid is:

amino

The amino acids differ from each other in the particular chemical structure of their R group.

amino1

The human body can synthesize all of the amino acids necessary to build proteins except for the ten called the “essential amino acids”. They can be supplied by a combination of cereal grains (wheat, corn, rice, etc.) and legumes (beans, peanuts, etc.). The 10 amino acids that we can produce are alanine, asparagine, aspartic acid, cysteine, glutamic acid, glutamine, glycine, proline, serine and tyrosine. Tyrosine is produced from phenylalanine, so if the diet is deficient in phenylalanine, tyrosine will be required as well. The essential amino acids (that we cannot produce internally) are arginine (required for the young, but not for adults), histidine, isoleucine, leucine, lysine, methionine, phenylalanine, threonine, tryptophan, and valine. These amino acids are required in the diet. Plants, of course, must be able to make all the amino acids. Humans, on the other hand, do not have all the enzymes required for the biosynthesis of all of the amino acids.”

Proteins

Proteins are highly complex substance that is present in all living organisms. Proteins are of great nutritional value and are directly involved in the chemical processes essential for life. A protein molecule is very large compared with molecules of sugar or salt and consists of many amino acids joined together to form long chains, much as beads are arranged on a string. There are about 20 different amino acids that occur naturally in proteins. Proteins of similar function have similar amino acid composition and sequence. When proteins are eaten, they are hydrolysed in the stomach to give a large variety of amino acids, which are then carried by the blood stream to all parts of the body. Some are used to build cell proteins in the growing body or repair damaged cells.

Glycine and alanine can combine together with the elimination of a molecule of water to produce a dipeptide.

amino2

In each case, the linkage shown in blue in the structure of the dipeptide is known as a peptide link.

If you joined three amino acids together, you would get a tripeptide. If you joined lots and lots together (as in a protein chain), you get a polypeptide.

 amino3

The relationship between amino acid side chains and protein conformation

The defining feature of an amino acid is its side chain (at top, blue circle; below, all colored circles). When connected together by a series of peptide bonds, amino acids form a polypeptide, another word for protein. The polypeptide will then fold into a specific conformation depending on the interactions (dashed lines) between its amino acid side chains.

Some important proteins are:

  1. Insulin (a hormone)
  2. Haemoglobin (Oxygen-carrying pigment in the blood).
  3. Ribonuclease (an enzyme)
  4. Collagen (a muscle protein)

The hydrolysis is catalysed by an acid or base. The amino acids obtained on hydrolysis can be separated and identified by using paper chromatography.

Test For Proteins

  1. Biuret Test: If copper (II) tetraoxosulphate (VI) is added to a solution of a protein and the resulting solution made alkaline with sodium hydroxide solution, a violet colour develops.
  2. Million’s Reagent Test: Add a drop or two of million’s reagent to some egg – white solution in a test tube. The formation of a white precipitate which turns brick red on heating indicates the presence of protein.
  3. Trioxonitrate (V) acid Test: Add three or four drops of concentrated trioxonitrate (V) acid to 2cm3 of egg-white solution. The formation of an intense yellow colour indicates the presence of proteins.

EXERCISES

Lets see how much you’ve learnt, attach the following answers to the comment below

  1. All carbohydrate contain (a) carbon and oxygen (b) carbon, hydrogen and sulphur (c) carbon, oxygen and hydrogen (d) carbon, water and phosphorus  Answer: Carbon, oxygen and hydrogen
  2. Cellulose, starch, fructose and glucose are all (a) alkanols (b) alkanones (c) proteins (d) carbohydrates  Answer: Carbohydrates
  3. Proteins hydrolyse to (a) polypeptides (b) monopeptides (c) colloids (d) peptides linkages  Answer: Monopeptides
  4. An example of a polysaccharide is (a) dextrose (b) mannose (c) glucose (d) glycogen  Answer: Glycogen
  5. The following are amino acids except (a) valine (b) tyrosine (c) chitin (d) tryptophan  Answer: Chitin

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