Protein Structure

Question 1

Give some example of functions of proteins.

Answer 1

Catalysts (enzymes)
Transporters (O2, Fe)
Structural support (collagens in skin and bone)
Machines (contraction and motion)
Immune protection (immunoglobulins)
Ion channels
Receptors
Ligands in cell signalling

Question 2

What is the subunit of proteins?

Answer 2

Polypeptides

Question 3

What is the subunit of polypeptides?

Answer 3

Amino acids

Question 4

How are amino acids linked?

Answer 4

By covalent bonds

Question 5

What is folding of a protein?

Answer 5

A polypeptide chain folds into a complex 3D structure that is highly specific.

Question 6

What is folding determined by?

Answer 6

The chemical and physical properties of the amino acid.

Question 7

What is the general structure of an amino acid?

Answer 7

An amino group (NH2)
A carboxyl group (COOH)
A hydrogen atom (H)
A distinctive R group (side chain)
and a carbon in the middle.
All of these are joined by covalent bonds.

Question 8

What different forms of an amino acids are there?

Answer 8

Unionised form and ionised.

Question 9

What groups of the amino acid can ionise?

Answer 9

Both the carboxyl group and the amino group.

COOH and COO- + H+) and (NH2 + H+ and NH3+

Question 10

What can be found at the N-terminal end of an amino acid?

Answer 10

The NH3+ amino group.

Question 11

What can be found at the C-terminal end of an amino acid?

Answer 11

The COO- carboxyl group.

Question 12

What is an amino acid residue?

Answer 12

What remains of an amino acid after it has been joined by a peptide bond to form a protein.

Question 13

How can amino acids be classified?

Answer 13

Hydrophobic or hydrophilic
Polar or non-polar
Acidic or Basic or Neutral
Aliphatic or aromatic

Question 14

What is pK values?

Answer 14

How likely something is to ionise.

Question 15

If the pH of a solution is less than the pK value of the amino acid, what will happen?

Answer 15

The R-group of the amino acid will be protonated

Question 16

If the pH of a solution is more than the pK value of the amino acid, what will happen?

Answer 16

The R-group of the amino acid will be deprotonated

Question 17

Give some examples of amino acid with positively charged R groups.

Answer 17

Lysine
Arginine
Histidine

Question 18

Give some examples of amino acids with negatively charged R groups.

Answer 18

Glutamate

Aspartate

Question 19

What is the predominant form of lysine with a pK of 10.5 at physiological pH?

Answer 19

Lysine will be protonated since pH

Question 20

What is the predominant form of Aspartate with a pK of 2.8 at physiological pH?

Answer 20

Aspartate will be deprotonated since pH>pK.

Question 21

What are the different structures of proteins?

Answer 21

Primary structure
Secondary structure
Tertiary structure
Quaternary structure

Question 22

What is the primary structure?

Answer 22

The linear amino acid sequence of the polypeptide chain formed by covalent bonds and peptide bonds.

Question 23

What is the secondary structure?

Answer 23

The alpha helix or beta-pleated sheet formation of proteins. Here hydrogen bonds come into play to make it stable.

Question 24

What is the tertiary structure?

Answer 24

A spatial arrangement which involves the folding of alpha helices and beta-pleated sheets. They can be either fibrous like collagen or globular like myoglobin. This is formed by disulphide bridges and hydrogen bonds.

Question 25

What is the quaternary structure?

Answer 25

When several of tertiary structures join together to form a complex.

Question 26

How are two amino acids linked together?

Answer 26

By peptide bonds. The the carboxyl group and amino group (COO- and NH3+) join together. H2O is formed and released and a peptide bond between the C-N is formed.

Question 27

Peptide bonds are rigid. What does this mean?

Answer 27

They have partial double bond characteristics so they are unable to rotate.

Question 28

Do peptide bonds exhibit a trans or cis conformation?

Answer 28

Trans

Question 29

Why is the amino acid sequence important?

Answer 29

Because it determines how the polypeptide chain will fold.

It determines the physical characteristics of the protein.

Question 30

Explain what the isoelectric point (pI) of a protein is.

Answer 30

pI of a protein is the pH at which there is no overall net charge and equilibrium is achieved.

Question 31

What value of pI do basic proteins have?

Answer 31

A pI > 7

Question 32

What value of pI do acidic proteins have?

Answer 32

A pI < 7

Question 33

What happens if pH < pI?

Answer 33

The protein is protonated

Question 34

What happens if pH > pI?

Answer 34

Protein is deprotonated

Question 35

Regarding secondary structure, what does proline do?

Answer 35

Proline acts as a helix break because the rotation around the N-C bond is impossible.

Question 36

Regarding secondary structure, what does glycine do?

Answer 36

Glycine acts as a helix breaker because the tiny R-group supports other conformations.

Question 37

What are strong helix formers?

Answer 37

Small hydrophobic residues such as alanine and leucine.

Question 38

What are fibrous proteins?

Answer 38

Tertiary structures with the role of support, shape and protection.
Long strands or sheets
A single type of repeating secondary structure (either helix or beta-pleated sheets) like collagen.

Question 39

What are globular proteins?

Answer 39

Tertiary structures with the role of catalysis and regulation.
A compact shape with several types of secondary structures.

Question 40

Briefly describe the structure of collagen.

Answer 40

Fibrous protein with triple helical arrangement.
Contains a repeating sequence of Glycine - X - Y.
Hydrogen bonds stabilise interactions between chains.

Question 41

How are water soluble proteins folded?

Answer 41

So that the hydrophobic side chains are buried and polar, charged chains are on the surface.

Question 42

Give some examples of quaternary structured proteins.

Answer 42

Haemoglobin with 2 alpha subunits and 2 beta subunits

Ribosomes

Question 43

What are the bonds of primary structure?

Answer 43

Covalent (peptide)

Question 44

What are the bonds of secondary structure?

Answer 44

H-bonds

Question 45

What are the bonds of tertiary structure?

Answer 45

Covalent, Ionic, disulphide, H-bonds, van Der Waals and hydrophobic (not really a bond).

Question 46

What are the bonds of quaternary structure?

Answer 46

Covalent, ionic, disulphide, h-bonds, van Der Waals and hydrophobic (not really a bond).

Question 47

How can proteins denature?

Answer 47

By excessive heat or pH altercation.

Also detergents and organic solvents can denature proteins by disrupting the hydrophobic interactions.

Question 48

How does heat denature proteins?

Answer 48

Increased vibrational energy

Question 49

How does pH denature proteins?

Answer 49

Alters ionisation states of amino acids and changes ionic/h-bonds.

Question 50

What happens if there is protein misfolding?

Answer 50

This can cause disease such as Transmissible spongiform encephalopathies such as Creutzfeldt Jakob’s disease.

Question 51

What is amyloidosis?

Answer 51

A group of diseases which involves misfolded proteins. For example an insoluble form of a normally soluble protein.