Genetically Modified Foods The essential questions? What ethical issues arise from genomic manipulation? What are the societal implications? How scientist manipulate DNA and the genome of an organism? Project ARISE: Advancing Rhode Island Science Education Funding provided by a Science Education Partnership Award from the National Center for Research Resources Genetically Modified Foods Student will know: Students who complete this unit should have a better understanding of the technology used to develop GM foods and any potential risks and benefits of genetically modifying organisms Project ARISE: Advancing Rhode Island Science Education Funding provided by a Science Education Partnership Award from the National Center for Research Resources Genetically Modified Foods Students should ask: Do we have enough information on GM foods to make an informed decision to support or reject GM foods? Project ARISE: Advancing Rhode Island Science Education Funding provided by a Science Education Partnership Award from the National Center for Research Resources Genetically Modified Food ARISE August 3, 2009 Outline • How to make a GM organism • Techniques • Homework for tonight Have you ever eaten genetically modified food? • Can you tell the difference between a genetically modified organism and a non-GM organism? • Do GM foods taste any different? Could they? http://www2.cast.ilstu.edu/ksmick/250/250lablink.htm What is genetic modification? • Does genetic modification only happen in plants? – No, the first gene was transferred into bacteria • What are some reasons for genetic modification? – Express recombinant insulin in bacteria • What are some of the benefits and some of the disadvantages of GM foods? http://users.rcn.com/jkimball.ma.ultranet/BiologyPages/A/Avery.html http://users.rcn.com/jkimball.ma.ultranet/BiologyPages/R/RecombinantDNA.html#cloning How long have humans been genetically modifying organisms? • What about in the lab? How long have scientists been modifying organisms? • How is modern technology used to genetically modify organisms? Teosinte Why would we want to modify an organism? • Better crop yield, especially under harsh conditions • Herbicide or disease resistance • Nutrition or pharmaceuticals, vaccine delivery • “In 2004, approximately 85% of soy and 45% of corn grown in the U.S were grown from Roundup Ready® seed.” http://www.oercommons.org/courses/detecting-genetically-modified-food-by-pcr/ Roundup Ready Gene • “The glyphosate resistance gene protects food plants against the broad-spectrum herbicide Roundup®, which efficiently kills invasive weeds in the field The major advantages of the "Roundup Ready®” system include better weed control, reduction of crop injury, higher yield, and lower environmental impact than traditional weed control systems Notably, fields treated with Roundup® require less tilling; this preserves soil fertility by lessening soil run-off and oxidation.” Restriction Enzymes What is better for making recombinant DNA: Sticky ends or blunt ends? Restriction Enzymes • Student activity • Potential Problems: – Wrong buffer – * activity • Online resources http:// www.dnai.org/b/index.html • Click on Techniques – Restriction enzymes are found in cutting and pasting Gel Electrophoresis • Gel electrophoresis is used to separate nucleic acids (DNA and RNA) or proteins for analytical use – DNA and RNA are separated using agarose – Proteins are separated using polyacrylamide – The gel is a matrix (cross-linked polymers) that allow products to be separated • Separation is based on the size (based on charge) of a product as it moves through a charged field Gel Electrophoresis • The negative charge is at the top (closest to the samples) and the positive charge is at the bottom – Samples are negatively charged and will travel towards the positive charge • DNA and RNA are negative because of their sugarphosphate backbone • Proteins are denatured to give a constant shape and given a charge through the negative loading buffer used – Samples are diluted in a loading buffer that helps the samples stay in the wells Gel Electrophoresis • Applications – Separating restriction digests – Analyzing/purifying PCR products – Sequencing – Protein analysis Gel Electrophoresis Gel Electrophoresis Gel Electrophoresis • Sample agarose gel stained with ethidium bromide (EtBr) Gel Electrophoresis • Student activity – Practice loading a gel with 20uL Kool Aid or food coloring – Run gel and see color separation – Discuss what it means for the colors to separate Gel Electrophoresis Gel Electrophoresis • Potential Problems – Connecting the charges backward – Not enough loading dye – Running the gel too hot – Handling EtBr • Online Resources: http:// www.dnai.org/b/index.html • Click on Techniques – Gel electrophoresis is found in sorting and sequencing Homework • Activate your Brown ID: http:// activate.brown.edu • Read “Teaching High School Science Chapters and • Read “GM foods & Teaching Critical Thinking” • Read GM Foods Unit and list three concerns or questions regarding the unit Restriction Enzymes Restriction Enzymes: Applications • Restriction enzymes are commonly used in laboratories to create recombinant DNA • Harvest DNA products for other applications • DNase a general nuclease used to eliminate DNA in RNA samples Gel Electrophoresis [...]... for the reaction: – – – – – DNA Primers to region of interest DNA polymerase (Taq – used to synthesize the DNA) dNTPS (the building blocks of the copied DNA) Buffer (with appropriate salts to ensure the enzyme works properly) PCR • Three steps of the reaction: – Denaturation: High heat (94-98o) to separate the strands of DNA – Annealing: (50-60o – depends on the primers) this step allows the primers to. .. (closest to the samples) and the positive charge is at the bottom – Samples are negatively charged and will travel towards the positive charge • DNA and RNA are negative because of their sugarphosphate backbone • Proteins are denatured to give a constant shape and given a charge through the negative loading buffer used – Samples are diluted in a loading buffer that helps the samples stay in the wells... allows the primers to bind to the denatured DNA strands – Elongation (74o) – DNA polymerase synthesizes the new strand • This step is dependant on the length of the product to be amplified (1min/1kb of DNA) • Check products with gel electrophoresis and sequencing PCR: Cycles PCR: PCR: Thermocycler PCR: Applications • Used to test for gene products for disease diagnosis • Used to amplify small amounts...How to make a GM organism • Clone gene into vector (i.e plasmid) with restriction enzymes and other molecular techniques • Transform into organism or into biological vector (agrobacteria or virus) • Infect plant with bacteria • Select for transformants with herbicide http://www.pbs.org/wgbh/harvest/ What we are doing today • Extract DNA from plant or food product • Use the technique of PCR to copy... used to separate nucleic acids (DNA and RNA) or proteins for analytical use – DNA and RNA are separated using agarose – Proteins are separated using polyacrylamide – The gel is a matrix (cross-linked polymers) that allow products to be separated • Separation is based on the size (based on charge) of a product as it moves through a charged field Gel Electrophoresis • The negative charge is at the top... food coloring – Run gel and see color separation – Discuss what it means for the colors to separate Gel Electrophoresis Gel Electrophoresis • Potential Problems – Connecting the charges backward – Not enough loading dye – Running the gel too hot – Handling EtBr • Online Resources: http:// www.dnai.org/b/index.html • Click on Techniques – Gel electrophoresis is found in sorting and sequencing Homework... electrophoresis is found in sorting and sequencing Homework • Activate your Brown ID: http:// activate.brown.edu • Read “Teaching High School Science Chapters 1 and 2 • Read GM foods & Teaching Critical Thinking” • Read GM Foods Unit and list three concerns or questions regarding the unit Restriction Enzymes ... DNA found in Round-Up Ready foods • Tomorrow we will analyze these products with gel elecrophoresis Many of the same techniques are used to make a genetic modifications as to detect one • • • • Polymerase Chain Reaction (PCR) Restriction enzymes Gel electrophoresis Transformation PCR • Invented in 1983 by Kary Mullis (Nobel Prize in 1993 for its discovery) • Uses primers to exponentially amplify a specific... “sticky ends” or “blunt ends” depending on the enzyme Sticky Ends Blunt Ends Sticky Ends Blunt Ends Restriction Enzymes • 1978 Nobel Prize in Medicine was awarded to Daniel Nathans and Hamilton Smith for the discovery of restriction endonucleases – Restriction enzymes were discovered in E.coli as a defense mechanism against bacterial viruses (bacteriophages) • The recognition sites are usually 4-12 nucleotides... due to wrong buffer conditions – No amplification due to lost enzyme activity – Primers are wrong • Online Resources: http://www.dnai.org/b/index.html • http://www.genome.gov/10000202 • Click on Techniques – PCR is found in amplifying Restriction Enzymes Restriction Enzymes • Restriction enzymes are also called restriction endonucleases – They cut double stranded DNA at sequence specific sites – They ... Electrophoresis • The negative charge is at the top (closest to the samples) and the positive charge is at the bottom – Samples are negatively charged and will travel towards the positive charge • DNA and. .. on the primers) this step allows the primers to bind to the denatured DNA strands – Elongation (74o) – DNA polymerase synthesizes the new strand • This step is dependant on the length of the. .. on GM foods to make an informed decision to support or reject GM foods? Project ARISE: Advancing Rhode Island Science Education Funding provided by a Science Education Partnership Award from the