Transcript Proteins

Proteins
Structures and Functions
What?
A series of amino acids in a polypeptide chain
Produced from the coding in the DNA of the nucleus
Makes up 50% of the dry mass of cells
Each cell may contain thousands of different proteins
Each protein has a different task determined by shape
They have the widest variety of structure and functions
of all macromolecules
Formed by condensation reactions between the amino
acids
20 different amino acids and 8 of these are “essential”
from the diet of the organism
Tasks
Structural building blocks – Keratin like hair and nails is a
tough structural protein
Functional molecules – like integral proteins and
hemoglobin to transport molecules
Enzymes – biological catalysts speeding up chemical
reactions within the body
Protection – immunoglobulins in the immune system
protect against bacterial infections and diseases like
cancer
Also Protection – fibrin in the blood is involved in clotting
and healing of ruptures
Structure – Determines function
Primary Structure: The unique sequence of
amino acids that makes up a protein or
polypeptide chain.
Determined by sequence
from nuclear DNA
Secondary structure
The folded structure that occurs after synthesis
May be in alpha helixes or pleated sheets
Held together by hydrogen bonds between hydrogen
from the oxygen from the carbonyl group C=O and
hydrogen from the amino
group N – H that is four
peptide bonds away
Hair is an example 
Pleated sheets (Beta pleated sheets) happens when two
sides of the polypeptide chain are parallel to one another
and the hydrogen bonds occur between the strands, not
in a coil
Spider webs are created by this protein.
Tertiary Structure
The shaping of the secondary structure with many twists
and folds into a 3D shape.
There may be several areas of coiling and pleating with
straight chain amino acids in between.
Four types of bonds hold these together
Disulphide bonds
Ionic Bonds
Hydrogen bonds
Hydrophobic and hydrophilic
interactions
These proteins can be either
Globular – from a ball-like structures with hydrophobic
parts towards the centre and hydrophilic parts towards
the edges – therefore water soluble – metabolic
Fibrous – long fibres of repeated sequences of AA’s so
therefore they are insoluble in water – and these are
structural – Keratin and Collagen
Quaternary Structure
Two or more polypeptide SUBUNITS come together and
bonds are created between them.
They are multiple polypeptide chains which may contain
a Prosthetic group like iron in haemoglobin – inorganic
All subunits must be present for the molecule to work as
indicated
Heat – a Deadly enemy
When heat is applied, the kinetic energy of the
molecules increases
The movement and vibration can rip apart the bonds
holding the protein together
Once torn apart, the molecule cannot reform
Think of frying an egg
This is called denaturing a protein!!!
http://highered.mcgrawhill.com/sites/0072943696/student_view0/chapter2/anim
ation__protein_denaturation.html