Manufacturing Human Insulin (Edexcel IGCSE Biology)
Revision Note
Manufacturing Insulin
The gene for human insulin can be inserted into bacteria which then produce human insulin
The insulin can be collected and purified for medical use to treat people with diabetes
The process of producing insulin from GM bacteria
The gene for insulin production is located within a human chromosome
Restriction enzymes are used to isolate or ‘cut out’ the human insulin gene, leaving it with ‘sticky ends’ (a short section of unpaired bases)
A bacterial plasmid is cut by the same restriction enzyme leaving it with corresponding sticky ends (plasmids are circles of DNA found inside bacterial cells)
The plasmid and the isolated human insulin gene are joined together by DNA ligase enzyme
If two pieces of DNA have matching sticky ends (because they have been cut by the same restriction enzyme), DNA ligase will link them to form a single, unbroken molecule of DNA
The genetically engineered (recombinant) plasmid is inserted into a bacterial cell
When the bacteria reproduce, the plasmids are copied as well and so a recombinant plasmid can quickly be spread as the bacteria multiply. All the new bacteria will express the human insulin gene and make the human insulin protein
The genetically engineered bacteria can be placed in a fermenter to reproduce quickly in controlled conditions and make large quantities of the human protein
Production of human insulin
Bacteria are extremely useful for genetic engineering purposes because:
They contain the same genetic code as the organisms we are taking the genes from, meaning they can easily ‘read’ it and produce the same proteins
There are no ethical concerns over their manipulation and growth (unlike if animals were used, as they can feel pain and distress)
The presence of plasmids in bacteria, separate from the main bacterial chromosome, makes them easy to remove and manipulate to insert genes into them and then place back inside the bacterial cells
Examiner Tips and Tricks
In an exam you may be asked to apply your knowledge of genetic modification to a new scenario so it is important to understand how the steps of this process can be applied to real life scenarios like producing insulin.
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