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Transcript
Genetic engineering – stepping stones Draw a path across the stepping stones in the correct order for each process. 1) Dolly the sheep – cloning technique Electric shock given to egg cell, which begins to divide. Sheep’s udder cell has nucleus removed. Developing embryo inserted into surrogate mother. Nucleus removed from sheep’s egg cell. Udder cell nucleus inserted into egg cell. Foetus is a clone of udder cell donor. 2) Transgenic organisms Restriction enzymes cut open the DNA of recipient organism. Transgenic organism is cloned. Gene begins to be expressed in transgenic organism. The required gene is removed. © www.teachitscience.co.uk 2012 New gene is inserted and ligase enzymes rejoin the DNA. 19642 The required gene is located in DNA of one organism. Page 1 of 3 Genetic engineering – stepping stones 3) Bacteria and human insulin Human insulin is produced in significant quantities. Transgenic bacteria are cloned and cultured. Insulin gene is inserted. Altered plasmid is inserted into another bacterium. Assaying techniques are used to check new gene. Plasmid of bacterial DNA is cut open. Transgenic bacteria begin to produce insulin. 4) DNA fingerprinting Restriction enzymes cut DNA at specific points. Fragments of DNA are put into gel. Gel electrophoresis sorts fragments according to size. Sample of DNA is taken from blood, semen, hair or saliva. Radioactive probes help to make the pattern visible. Cells are broken open and DNA is separated. © www.teachitscience.co.uk 2012 19642 Page 2 of 3 Genetic engineering – stepping stones Answers Dolly the sheep – cloning technique 1/2. Sheep’s udder cell has nucleus removed. 1/2. Nucleus removed from sheep’s egg cell. 3. Udder cell nucleus inserted into egg cell. 4. Electric shock given to egg cell, which begins to divide. 5. Developing embryo inserted into surrogate mother. 6. Foetus is a clone of udder cell donor. Transgenic organisms 1. 2. 3. 4. 5. 6. The required gene is located in DNA of one organism. The required gene is removed. Restriction enzymes cut open the DNA of recipient organism. New gene is inserted and ligase enzymes rejoin the DNA. Gene begins to be expressed in transgenic organism. Transgenic organism is cloned. Bacteria and human insulin 1. 2. 3. 4. 5. 6. 7. Plasmid of bacterial DNA is cut open. Insulin gene is inserted. Altered plasmid is inserted into another bacterium. Assaying techniques are used to check new gene. Transgenic bacteria begin to produce insulin. Transgenic bacteria are cloned and cultured. Human insulin is produced in significant quantities. DNA fingerprinting 1. 2. 3. 4. 5. 6. Sample of DNA is taken from blood, semen, hair or saliva. Cells are broken open and DNA is separated. Restriction enzymes cut DNA at specific points. Fragments of DNA are put into gel. Gel electrophoresis sorts fragments according to size. Radioactive probes help to make the pattern visible. © www.teachitscience.co.uk 2012 19642 Page 3 of 3
