Structure

• Haemoglobin is a?globular?protein which is an oxygen-carrying pigment found in vast quantities in red blood cells
• It has a?quaternary?structure as there are?four polypeptide chains. These chains or subunits are?globin?proteins (two?α–globins?and two?β–globins) and each subunit has a?prosthetic?haem?group
• The?four globin subunits?are held together by disulphide bonds and arranged so that their?hydrophobic R groups?are facing?inwards?(helping preserve the?three-dimensional spherical shape) and the?hydrophilic R groups?are facing?outwards?(helping maintain its?solubility)
• The arrangements of the R groups is important to the functioning of haemoglobin. If changes occur to the sequence of amino acids in the subunits this can result in the properties of haemoglobin changing. This is what happens to cause?sickle cell anaemia?(where base substitution results in the amino acid valine (non-polar) replacing glutamic acid (polar) making haemoglobin less soluble)
• The prosthetic?haem?group contains an?iron?II ion (Fe2+) which is able to?reversibly?combine with an?oxygen?molecule forming?oxyhaemoglobin?and results in the haemoglobin appearing bright red
• Each?haemoglobin?with the four haem groups can therefore?carry?four oxygen?molecules?(eight oxygen atoms)

The structure of haemoglobin showing the α–globin and β–globin subunits, the prosthetic haem group with oxygen molecules bonded to form oxyhaemoglobin.

Function

• Haemoglobin is responsible for binding oxygen in the lung and?transporting?the?oxygen?to tissue to be used in aerobic metabolic pathways
• As?oxygen is not very soluble?in water and haemoglobin is, oxygen can be carried more efficiently around the body when bound to the haemoglobin
• The?presence?of the?haem group?(and Fe2+) enables small molecules like oxygen to be bound more easily because as each?oxygen molecule?binds it?alters?the?quaternary structure?(due to alterations in the tertiary structure) of the protein which causes haemoglobin to have a higher affinity for the subsequent oxygen molecules and they bind more easily
• The?existence?of the iron II ion (Fe2+) in the prosthetic haem group also allows?oxygen?to?reversibly bind?as none of the amino acids that make up the polypeptide chains in haemoglobin are well suited to binding with oxygen

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