Cells and Proteins Unit 1 Advanced Higher Miss Aitken

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Presentation transcript:

Cells and Proteins Unit 1 Advanced Higher Miss Aitken Protein Structure Cells and Proteins Unit 1 Advanced Higher Miss Aitken Textbook P18-19

Protein Structure After a polypeptide has gone through post-translational modification, it must be folded to make the final protein shape. Polypeptides go through up to 4 levels of folding to become a protein.

Primary Structure The sequence in which amino acids are arranged. This determines the function of the protein.

Secondary Structure Once the primary structure is established, it can fold in two main different ways:

Tertiary Structure For many proteins, the final folded shape is the tertiary structure. This is 3 dimensional and is caused by interactions between R groups of amino acids. There are 4 types of interactions which will affect the tertiary structure: Hydrophobic interactions Ionic bonds Van der Waals interactions Disulphide bridges

Tertiary Structure Tertiary structure is affected by changes in temperature and pH. A higher temperature will cause the structure to become destablised as the chain “shakes” which breaks weak bonds. A change in pH will affect the ionisation of the acidic and basic R groups and changes the charge they carry so they no longer bond correctly.

Quaternary Structure This is where the polypeptide unit may join with other units. Examples: Collagen – made of 3 subunits Haemoglobin – made of 4 subunits

Prosthetic Groups A non-protein strongly bound to one or more poly peptide units within the protein. Example: Haemoglobin – made of 4 subunits of protein and one “haem” group – made of Iron.