Genetic Engineering (AQA GCSE Biology)
Revision Note
Written by: Lára Marie McIvor
Reviewed by: Lucy Kirkham
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Genetic Engineering: Basics
Genetic engineering is changing the genetic material of an organism by removing or altering genes within that organism, or by inserting genes from another organism
The organism receiving the genetic material is said to be ‘genetically modified’, or is described as a ‘transgenic organism’
The DNA of the organism that now contains DNA from another organism as well is known as ‘recombinant DNA’
Plant Genetic Engineering
Genetically modified plants are plants that have had foreign DNA inserted into their genome
This is usually done to improve food production in some way
For example:
Tomatoes have been genetically modified to make them grow larger fruit
Wild rice has been genetically modified to produce beta carotene (needed by humans to make vitamin A)
Crop plants have been genetically modified to be resistant to diseases or resistant to certain herbicides
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Bacteria Genetic Engineering
Genetic modification of bacteria to produce human insulin
The gene for human insulin has been inserted into bacteria which then produce human insulin which can be collected and purified for medical use to treat people with diabetes
The gene that is to be inserted is located in the original organism – 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)
Restriction enzymes cut DNA strands at specific sequences to form ‘sticky ends’
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
DNA ligase is used to join two separate pieces of DNA together – the recombinant plasmid is then 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 and they will then all 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
Examiner Tips and Tricks
Higher-tier students are expected to know the process of genetic engineering, however, you do not need to recall the names of the enzymes involved such as DNA ligase or restriction enzymes. The use of the term "sticky ends" will also not be required in your exam. This is additional information that helps with the overall understanding of the concept.
Advantages & Disadvantages of Genetic Engineering
Advantages & disadvantages of GM crops table
GM Crops
Crops can be genetically modified (they are known as GM crops)
Crop plants, such as wheat and maize, have been genetically modified to contain a gene from a bacterium that produces a poison that kills insects, making them resistant to insect pests such as caterpillars. This can improve crop yields
Crop plants have also been genetically modified to make them resistant to certain herbicides (chemicals that kill plants), meaning that when the herbicide is sprayed on the crop it only kills weeds and does not affect the crop plant
Some crops have been genetically modified to produce additional vitamins and improved nutritional value, eg. ‘golden rice’ contains genes from another plant and a bacterium which make the rice grains produce a chemical that is turned into vitamin A in the human body, which could help prevent deficiency diseases in certain areas of the world
Some have been genetically modified to be drought-resistant (to grow better in very dry conditions). This can also improve crop yields
Concerns about GM crops include the effect on populations of wildflowers and insects
Some people feel the effects of eating GM crops on human health have not been fully explored
Curing Diseases with Genetic Engineering
Modern medical research is exploring the possibility of genetic modification to overcome some inherited disorders
As these inherited genetic diseases are caused by faulty genes, it may be possible to treat these by inserting working versions of these genes into people with the genetic disease
This is called gene therapy
The Process of Genetic Engineering
Higher tier only
The main steps in the process of genetic engineering:
Enzymes are used to isolate (cut out) the required gene
This gene is inserted into a vector
The vector is usually a bacterial plasmid (a piece of circular DNA found inside bacterial cells) or a virus
The vector is used to insert the gene into the required cells of the target organism
Genes are transferred to the cells of animals, plants or microorganisms at an early stage in their development so that they develop with desired characteristics
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