proteins

Question 1

What kinds of proteins provide support?

Answer 1

Collagen (the protein of the bone), skin and tendon

Question 2

Tell me about collagen fibres

Answer 2

These are the main component of connective tissue

Found in skin, tendons, organs and bone

Question 3

What are erythrocytes

Answer 3

This is another name for a red blood cell

Question 4

Tell me about haemoglobin

Answer 4

Selective delivery of O2 to metabolic tissues
4 protein subunits per molecule
Each subunit contains a haem group that can bind one oxygen molecule
Haem is an example of a prosthetic group

Question 5

What are LDLs composed of?

Answer 5

a phospholipid shell and a single molecules of apolipoprotein

Question 6

What are LDLs used for?

Answer 6

To transport cholesterol between cells via the circulatory system

Question 7

What is the uptake of LDL particles mediated by

Answer 7

the LDL receptor that binds LDL and facilitates internalisation

Question 8

What condition is associated with a mutation in the LDL receptor gene

Answer 8

Hypercholesterolemia

Question 9

Describe the structure of antibodies

Answer 9

There are two identical heavy chains and two identical light chains covalently linked by disulphide bonds
The antigen recognition site is highly specific and tightly binds the complementary antigen allowing recognition of foreign proteins by the immune system

Question 10

Lysozyme is an exmpale of a biological catalyst: describe it

Answer 10

It catalyses the cutting of polysaccharide chains
Lysozyme binds to the polysaccharide chain, catalyzes the cleavage of a specific covalent bond and releases the cleaved products
lysozyme remains unchanged at the end of the reaction

Question 11

What kind of protein regulates genes?

Answer 11

the lac repressor - helps controls gene expression

Question 12

Describe the lac repressor

Answer 12

Controls production (expression) of proteins metabolising lactose in bacteria
The repressor binds to DNA and prevents expression of the gene in the absence of lactose

Question 13

what do the functions of protein come down to

Answer 13

SPECIFIC BINDING = CHANGE OF CONFORMATION = CHANGE OF ACTIVITY

Question 14

What bonds are proteins joined by

Answer 14

peptide bonds

Question 15

Whats the structure hierarchy of proteins

Answer 15

PRIMARY - SECONDARY - TERTIARY - QUATERNARY

Question 16

What is the general structure of an amino acids

Answer 16

An amino group, a carboxylic acid and a unique side chain

Question 17

What does the r-group determine

Answer 17

the structure and function of the protein

Question 18

Name the hydrophilic amino acids

Answer 18

Lysine, arginine, histidine - basic
aspartate, glutamate - acidic
Serine, threonine, asparagine, glutamine - polar uncharged r-groups

Question 19

Name the hydrophobic amino acids

Answer 19

alanine, valine, isoeucine, leucine, methionine, phenylalanine, tyrosine, tryptophan

Question 20

Name the special amino acids

Answer 20

Cysteine, glycine, proline

Question 21

what is special about cysteine

Answer 21

it can form covalent disulphide (-s-s-) bons with other cysteine residues

Question 22

What is special about glycine

Answer 22

It is the smallest amino residue and can fit into tight spaces

Question 23

Why is proline special

Answer 23

he side chain of proline bends around to form a covalent bond with the nitrogen atom of the amino group. By doing this creates a kink in the protein chain

Question 24

What is an acid

Answer 24

any molecule that tends to release a hydrogen ion

Question 25

What is a base

Answer 25

a base is a molecule that readily combines with a hydrogen ion

Question 26

Whats the equilibrium constant:

Answer 26

Ka = [H+][A-] / [HA]

Question 27

Whats the pH equation

Answer 27

pH = pKa + log [A-]

[HA]

Question 28

What is the pKa rule

Answer 28

•The pKa of any acid is equal to the pH at which half the molecules are disassociated

Question 29

What does the charge of an amino acid vary with

Answer 29

pH

Question 30

What is pKa

Answer 30

pKa is the pH at which dissociation is 50% complete

Question 31

What can influence pKa

Answer 31

Local enviroment

Question 32

Describe the receptor mediated endocytosis process in relation to the uptake of LDL

Answer 32

A reduction in pH in the endosome causes a change in conformation of the LDL-
receptor due to the presence of histidine residues within the protein (pK 6.5)
LDL can no longer bind and is released to the lysosome
Patients with familial hypercholesterolemia frequently have mutations in the
histidine residues of the LDL-receptor.

Question 33

What is a peptide bond

Answer 33

• A covalent bond formed when the carbon from the carboxylate group (red) shares electrons with the nitrogen atom from the amino group (blue) of a second amino acid
• A molecule of water is lost so this is called a condensation reaction

Question 34

Describe the constraints on a peptide bond

Answer 34

The peptide bond (grey shading) does not permit rotation
Rotation can occur on the a-carbon
The conformation of the folded polypeptide chain is determined by one pair of angles for each amino acid residue
Bulky R-groups are positioned on either side of the backbone
This limits the number of 3-dimensional conformations possible for a polypeptide

Question 35

What is secondary structure

Answer 35

• Secondary structure is the initial folding pattern (periodic repeats) of the linear polypeptide
• 3 main types of secondary structure: α-helix, β-sheet and bend/loop
• Secondary structures are stabilized by hydrogen bonds

Question 36

tell me about the alpha helix

Answer 36

• The α-helix is right-handed and each turn has 3.6 amino acid residues
• The helix is stabilized by H-bonds between amino and carboxyl groups of every 4th amino acid

Question 37

Tell me about beta sheets

Answer 37

• Extended stretches of 5 or more amino acids are called β-strands
• β-strands organized next to each other make β-sheets
• H-bonding pattern varies depending on type of sheet

Question 38

parallel and anti-parallel beta sheets

Answer 38

If adjacent strands are oriented in the same direction (N-end to C-end), it is a parallel β-sheet, if adjacent strands run opposite to each other, it is an anti-parallel β-sheet. There can also be mixed β-sheets

Question 39

Describe the bend/loop or a turn

Answer 39

• Polypeptide chains can fold upon themselves forming a bend or a loop.
• Usually 4 amino acids are required to form the turn
• Proline residues frequently found in bends / loops

Question 40

What is amino acid resdue

Answer 40

When two or more amino acids combine to form a peptide

Question 41

What are the function of loops and turns in tertiary structure

Answer 41

connect regions of α-helix and β-sheet so that the polypeptide can fold into a globular domain.

Question 42

What kind of bonds stabilise tertiary structure

Answer 42

Di-sulphide bonds
H-bonds
Ionic interactions 
Van der Waals interactions 
Hydrophobic interactions

Question 43

What is a haem group

Answer 43

A porphyrin ring with coordinated Fe atom - binds to oxygen for transport to tissues. These are held in place by hydrogen bonds from histidine F8 and the bound oxygen molecule is stabilsed by histidine E7

Question 44

What happens to the histidine that H bonds to the haem group in F8

Answer 44

this changes position causing major structural changes in the globin subunit

Question 45

biological significance

Answer 45

• Relatively small changes in oxygen concentration result in large changes in the interaction of haemoglobin with oxygen
• This equates to tight oxygen binding in the lungs and subsequent release in tissues where oxygen concentration is lower

Question 46

What is sickle cell anaemia

Answer 46

This is caused by a single amino acid change at position 6 in the beta chain of heamoglobin
•Hydrophilic glutamic acid to hydrophobic valine
This causes sickling of erythrocytes due to aggregation of mutated haemoglobin that forms stiff fibres (change in surface chemistry of the protein)
SHRIVELED NOT CONCAVE

Question 47

What is the Bohr effect

Answer 47

The pH of the blood influences O2 binding to haemoglobin

Question 48

What is the pH and oxygen trend

Answer 48

O2 binding occurs with higher affinity at high pH (lung) and lower affinity at low pH (peripheral tissues)

Question 49

What happens during excerise

Answer 49

CO2 (acidic) builds up during exercise, which lowers blood pH facilitating faster oxygen delivery

Question 50

Tell me about foetal haemoglobin

Answer 50

This is comprised instead of two alpha and two GAMMA subunits
Low O2% by the time blood reaches placenta so needs to bind with greater affinity than maternal haemoglobin
Due to absence of the beta chains foetal red blood cells are unaffected by sickle cell disease

Question 51

Tell me about the structure of collagen

Answer 51

Tropocollagen is building block of the collagen fibre and consists of 3 polypeptide chains with a left handed twist wound together in a right handed supercoil

Question 52

Tell me more about tropocollagen

Answer 52

GLYCINE is vital in the formation of tropocollagen triple helic as it has a small side chain that allows for tight turns (three amino acid residues per turn)

Question 53

What is Proline

Answer 53

Another vital structure in tropocollagen as it imposes the left handed twist that provides the main stabilisng force
These can become hydroxylated to form hydroxyproline that forms strong hydrogen bonds that again hekp to stabilise the helix

Question 54

How are collagen fibres held together

Answer 54

covalent crosslinks involving Lysine-derived aldehydes stabilise tropocollagen and the collagen fibre
The gaps provide access sites for lysyl oxidase

Question 55

What causes osteogenisis imperfecta

Answer 55

a mutation in the gene coding for one of the collagen subunits leading to a Glycine being replaced by a Cysteine residue at one point in the chain

Question 56

What are the symptoms and cause of ehlers-danloss syndrome

Answer 56

Loose skin and hypermobile joints

Lack of procollagen peptidase or lysyl oxidase

Question 57

What does each strnegth building factor mean

Answer 57

Close packing of subunits = Glycine every 3rd residue
Opposing twists of subunits = High Proline content
and superhelix
Hydrogen Bonding = Hydroxyproline
Cross-linking = Lysine-derived aldehydes