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Agriculture. Transgenic Plants Production of Bovine Somatotrophin. Revision. How is genetic engineering of organisms carried out (think back to SG and Higher)? What is needed? What is substances are produced through genetic engineering? What else do we know?. Transgenic Plants.
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Agriculture Transgenic Plants Production of Bovine Somatotrophin
Revision • How is genetic engineering of organisms carried out (think back to SG and Higher)? • What is needed? • What is substances are produced through genetic engineering? • What else do we know?
Transgenic Plants • A transgenic organism is an organism that is carrying genetic material of another organism in its genome. • Producing a transgenic organism requires: • A vector used to insert the required DNA into a plant • A way of ensuring the gene is carried in all cells
Vectors • A vector is an agent used to transfer DNA from one organism to another • Agrobacterium (tumerfaciens) is a commonly used vector • Agrobacterium is a soil bacteria • It contains a plasmid (known as Ti) which it can insert into plant DNA causing a tumour (crown gall disease)
Procedure for creating a transgenic plant using a Ti-plasmid • Ti disease gene is disabled • Eg. By removing it with restriction enzymes • A target gene containing desired characteristics is identified • A target gene is removed from source DNA using a restriction enzyme • The plasmid is then cut using the same restriction enzyme
Procedure for creating a transgenic plant using Ti cont… • The foreign DNA (target gene) is then added to the plasmid and sealed using DNA ligase • The modified plasmid is returned to the Agrobacterium • (Note the plasmid also has a method for identification e.g antibiotic resistance – later in the process this is used to identify the cells that have the plasmid)
Procedure for creating a transgenic plant using Ti cont… • Plant cell protoplasts are prepared • The protoplasts are incubated with the bacterium containing the modified plasmid • Grown in a selective medium that allows only the growth of cells containing the plasmid (and selected gene) • E.g the medium may contain an antibiotic
Example 1 – insect resistance • The bacteria Bacillus thuringiensis produces proteins (known as BT toxins) that have been used for insecticides • The toxin is isolated from the bacteria genome and inserted into Ti plasmid of agrobacterium • The resulting plant kills insects that eat it
Example 1 – insect resistance • Potato, cotton and soybean are all plants were this technique is used • Benefits • Only insects eating the plant are killed • Reduces the use of pesticides • The entire plant has protection (not just the leaves and stem, as would be the case if it was sprayed)
Example 2 – Tomato plants • Tomato ripening is naturally accompanied by softening due to an enzyme – PG (polygalacturonase) • Fruit an usually picked while still green and ripened artificially using ethene gas • By modifying the PG gene, fruit could be left to ripen longer without softening • Fresher, riper tomatoes could be delivered to supermarkets
Bovine Somatotrophin (BST) production • Bovine somatotrophin is a growth hormone that can be used to increase growth (mainly muscle and bone) and milk production in cattle • The gene is isolated from cattle cells using restriction enzymes • A restriction enzyme is also used to open a plasmid from an E. coli bacteria
Bovine Somatotrophin (BST) production • The BST gene is inserted into the plasmid using DNA ligase • The E.coli bacteria containing the plasmid are then cultured • The gene is expressed (i.e. transcribed and translated into protein form) during bacterial growth • The protein is then purified and prepared for administration to cattle
Use of BST • BST is either administered by injection or the protein is included in cattle feed • Results in a 10% increase in milk production
Disadvantages / concerns • Can increase mastitis in cows • Lameness later in life – due to enlarged udders • BST causes a lack of fat deposits (more of the glucose etc.. is used) therefore hypothermia can develop • BST found in milk – supposedly safe as it will be broken down in our stomachs
Learning Activities • Monograph pg 90 – 94 • DART pg 88 – 93 • Scholar • Genetically Modified Plants worksheet • Make flow diagrams / posters of the process of • Creating transgenic plants • BST production • Assignment Questions – 2001 Q12, 2005 Section B Q 8 • Look at websites • http://www.food.gov.uk/gmfoods/gmtt/gmplantshow
Moral and Ethical Issues related to transgenic organisms • Moral and Ethical codes attempt to establish acceptable human behaviour for the benefit of all society ‘DART’ • Transgenic organisms • What rights do they have? • Farmers • What might there opinions towards transgenic be? How might differing views on accompanying farms be dealt with?
Moral and Ethical Issues related to transgenic organisms • Consumers • What are the pros and cons? • What are the facts vs media hype? • The Environment • Benefits vs problems • Biotechnology Industry • Motives vs issues
Formal Debate • This house supports the creation and use of transgenic organisms
THE END OF UNIT ONE • (Except for the NAB)