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Transcript
Genetics in the New Millennium: From Plants to People A Panel Discussion Sponsored by the Science, Humanities and Society Program and the Center for Teaching Excellence Moderator Bill McCarthy, History Panelists: Midori Albert, Anthropology Ken Diehl, Pre-Engineering Diane Dodd, Biology Diane Melroy, Biology Patricia Turrisi, Philosophy Why Talk About Genetics? Need to increase understanding of complex issues: Genetic causality is not simple. Scientific issues become political, economic, ethical. Why talk about genetics? Popular hopes and fears Pros Select desirable traits Prevent disease Augment food supply Why Talk About Genetics? Popular hopes and fears Cons: Institutionalization of inferiority Increase in abortions Denial of health care The Science of Genes Genes are DNA DNA is DNA is DNA What a gene does Genes carry the information to build proteins each 3 bases in DNA code for one sub-unit of a protein proteins have many and varied functions structural carriers enzymes How genes determine traits One gene may affect one trait working gene = health defective gene = hemophilia Often the relationship is much more complicated one gene may affect more than one trait more than one gene may affect the same trait environmental factors may affect the trait How genes determine traits Genes and “norm of reaction” many genes specify range of possibilities final trait determined by genes and outside factors random events in development environmental factors unknown genetic factors Is Genetic Engineering Engineering? • What is engineering? • What is “genetic engineering”? Anthropological Considerations The Impact of Genetic Engineering on Human Adaptation and Variation Genetic Engineering: Anthropological Considerations Possible Loss of Naturally Occurring Human Variation Less biological diversity limits our ability as a species to adapt to changing environments Genetic Engineering: Anthropological Considerations Who decides which genes (alleles) are favorable and which are not? Cultural biases Religious biases Biological determinism Socio-economic implications Genetically Modified Organisms (GMOs) in Food Have You Eaten Yours Today?? Short History of GM Food Crops 1983 First transgenic plant developed 1985 First field tests of transgenic crops 1994 Flavr-Savr tomatoes sold 1996 EPA endorses food containingBt toxin “there is a reasonable certainty that no harm will result from aggregate exposure…including infants and children, to the CryIA(b) protein…” 1999 US soybean exports to Europe drop from a high of $300 million to $1 million as Europeans reject “frankenfoods” 2000 An estimated 2/3 of processed foods contain GMOs produced on 70 million acres of American farmland 2001 Several US cities try to restrict sale of food containing GMOs How to Genetically Modify a Plant Agrobacterium tumefaciens infection This bacterium normally adds its own DNA to that of plant cells – by changing its DNA, you can use it to deliver specific genes to a plant. Gene gun Coat a gold particle with DNA and just shoot into cell nuclei. Amazingly, the DNA can be incorporated into the plant. Both processes result in random genetic changes in plant cell receiving DNA Why Genetically Modify Crops? Bt toxins increase insect resistance Roundup Ready crops from Monsanto resist their herbicide Roundup, reducing soil erosion by encouraging ‘no-till’ agricultural practices Increased nutritional value Golden rice containing beta-carotene Soybean containing corn proteins Human milk proteins in cows milk? Addition of other desirable traits Rapid growth (of plant) Lower tooth decay (in people) Altered fatty acid profiles for industrial oils Longer shelf life (plant and products) Risks of GM crops Bt toxin resistance, soil contamination Increased herbicide use Allergies: new and old Toxic effects of altered metabolism Increased problems with antibiotic resistant bacteria Gene transfer to wild relatives; other weed problems Bottom Line? GM crops are like people: each must be judged individually. A more unified governmental approach to product testing and balancing risks and benefits might help. Labeling, opposed by most agribusiness, would help consumers but only if they were educated on the issues first. The Politics of Genetic Engineering The Profitability of Genetic Engineering Genetics and Social Darwinism Is Genetics a Class Issue? Who’s watching the store? What we don’t know; what we can’t do.
