Another future GM potato is the protein-packed potato developed in India. Researchers in India have created a potato with thirty-five to sixty percent more protein! This potato uses the gene from amaranth seed. This potato would be beneficial to human health in developed and developing countries and help fight malnutrition in India, especially in children. So far, this potato looks promising in my opinion, there were no side effects on rats and rabbits, it doesn’t contain any know allergens and doesn’t contain pesticide.

Now that we know all about the types of potatoes that exist, we can now discuss the main issue: the pros and cons of genetically modified food, misconceptions people have and the ethics behind it. Listed below are the advantages and disadvantages of genetically modified food, especially potatoes.

Advantages
Disadvantages
·        Decrease in cost of production, less money spent on pesticides and insecticides (Saves money)
·        Better for the environment: In Amflora production less energy, water and chemicals are used. Less chemical used to resist pests.
·        Less pesticide, better for farmers’ health
·        High in nutrients: the protein packed potato
·        Benefits farmers and people of developing countries
·        Reduces soil erosion
·        Better quality potatoes
·        Harmful health risks: Can cause antibiotic resistance
·        Cause health problems for animals eating the product.
·        Some GM foods may contain allergens and toxins.
·        Gene transfer may occur between organisms.

           
The above chart shows the pros and cons of genetically modified food, and there seems to be more advantages than disadvantages but people still have many misconceptions of genetically modified food. People began to misunderstand GM foods when a Scottish scientist named Arpad Pustzai. Coincidently, Pustzai carried out his experiments on the Bt Potato. Dr. Pustzai proved GM potatoes to be toxic, however according to Pandora’s Picnic Basket, he confused product and process. Dr. Pustzai showed that raw GM potatoes caused health problems in rats. What he failed to note was that natural potatoes contain a natural toxin called lectins, therefore when potatoes are cooked, the toxin dies. In this case, Dr. Pustzai mistaken the “product with the process”, the natural lectin caused the side effects not the new gene. Later scientists concluded that GM potatoes are the same non-modified potatoes, except for the gene and the product. The truth is biotech foods are SAFE to eat. The two misconceptions that GM foods are not safe and are not healthy are false! According to Health Canada, no genetically modified product is allowed to be sold unless Health Canada scientist proves that the product is safe and nutritious.

The above chart shows the pros and cons of genetically modified food, and there seems to be more advantages than disadvantages but people still have many misconceptions of genetically modified food. People began to misunderstand GM foods when a Scottish scientist named Arpad Pustzai. Coincidently, Pustzai carried out his experiments on the Bt Potato. Dr. Pustzai proved GM potatoes to be toxic, however according to Pandora’s Picnic Basket, he confused product and process. Dr. Pustzai showed that raw GM potatoes caused health problems in rats. What he failed to note was that natural potatoes contain a natural toxin called lectins, therefore when potatoes are cooked, the toxin dies. In this case, Dr. Pustzai mistaken the “product with the process”, the natural lectin caused the side effects not the new gene. Later scientists concluded that GM potatoes are the same non-modified potatoes, except for the gene and the product. The truth is biotech foods are SAFE to eat. The two misconceptions that GM foods are not safe and are not healthy are false! According to Health Canada, no genetically modified product is allowed to be sold unless Health Canada scientist proves that the product is safe and nutritious.

            The last topic of today’s blog is the ethics behind genetically modified food and the GM potato. One ethical issue is “Are scientist playing God”, is it right to change to composition of an organism. As well, some religions do not indulge in animal products; therefore can they eat plants that contain animal genes? Another ethical issue is what affects will GM foods have on the environment? The Amflora potato was recently introduced and we do not know the long term effects of the crop on animal and plant life. Also pest-resistant potatoes can disrupt the food chain, insects and animals that feed on the potato will now have to find other food sources. How will GM foods affect the health of people? Some GM plants contain toxins and allergens. A major issue is how will GM foods affect developing countries? Genetically modified food, like the Amflora potato benefits industries like BASF and developed countries. In a New York Times article, farmer Anders Lunneryd, states genetically modified give “complexity and control” to big corporations. In other cases, such as golden rice and protein-packed potatoes benefit developing countries and are therefore ethical. In Europe by law, GM foods must be labeled, however in Canada and in the United States food does not need to be labeled if genetically modified. This is an ethical issue, because this prevents the freedom of consumers to avoid GM foods for religious or personal reasons. I personally believe that it is my right as a Canadian to know if my food has been genetically modified!

            This is the truth about genetically modified foods and GM potatoes and the ethics behind it. What do you think about genetically modified food? The next time you visit the market will you stop and wonder if the fruit or vegetable you pick up contains genetically modified genes? If food was labeled as genetically modified would you still buy it? Do you believe it is your right to know whether your food is genetically modified or not?

Until Next Time, Chelsea McPherson
 
Hey Everyone! Welcome back to my healthy living blog! Today’s blog will be about a common concern across the globe, genetically modified foods (GM). Genetically modified foods were first introduced in North America in 1994 and in Europe in 1996, with the launch of the genetically modified tomato. Since then GM technology has become common in today’s society with pest-resistant cotton, sugar cane with increased sugar content, sweet peppers resistant to viruses, rice with high Vitamin A levels (Golden rice), herbicide resistant soybeans and the list goes on. Along with the health concerns, ethical issues, pros and cons of genetically modified foods, today I will be focusing on a recent GM product, the potato.

 
Otter, A. (2009, October 23). SA government rejects GM potatoes. Treevolution. Retrieved February 20, 2011, from www.treevolution.co.za/2009/10/sa-government-rejects-gm-potatoes/
 After thirteen years of research, in March 2010, the European Union approved the newest genetically modified potato called the Amflora. I will discuss this type of potato a little later in my blog, but first I will tell you about the history of the GM potato. Before the arrival of the Amflora potato, pest-resistant potatoes existed, however were later removed from the North American market. A biotechnology company by the name of Monsanto introduced a pest-resistant potato in the year 1996. These potatoes are commonly known as New Leaf or Natural Mark potatoes. These potatoes were designed to resist the Colorado potato beetles and the Potato Virus Y (PVY). These potatoes contained two isolated genes from bacteria and were used to create proteins. The first gene is known as Bacillus thuringiensis (Bt) and the second gene is a “biological marker” used to identify the GM potato. Now you may be sitting there thinking, “How are the genes transferred to the plant?” Before the gene can be transferred, it first must be isolated and then is ready for gene transfer. The first step in transferring the gene is delivering it to the nucleus and the second step is cell growth. There are two common methods used in gene transfer mentioned in the book Pandora’s Picnic Basket: The Potential and Hazards of Genetically Modified Foods. The first method is the “gene gun” or the “shotgun” method. The gene is combined with microscopic gold or tungsten pellets and placed on a “support” and is then shot into the plant using helium. Although, the cell becomes damaged during this process, the cell does not die. The second method mentioned is Agrobacterium, which is a “naturally occurring agent”. Although the process is not simple, basically the two strands of DNA are cut, and one forms a protein while the other is used as a template for the complementary base.

 

BioTech SYSTEM. (n.d.). BioTech SYSTEM. Retrieved February 21, 2011, from http://biotechsystem.ucdavis.edu/quarterly_meetings.cfm
Taylor, N. (n.d.). Link Latte #6. GENOMICON. Retrieved February 21, 2011, from http://www.genomicon.com/2010/01/link-latte-6/

As previously mentioned, the pest-resistant potato was discontinued in the year 2001 by Monsanto. Why? The New Leaf potatoes showed little to no economic advantages. Also companies like McDonald’s, Wendy’s and the company the makes Lays chips, Fritos, stopped purchasing potatoes that were genetically modified because consumers were concerned about health issues. As well, McCain, the company that makes McCain French fries stopped purchasing GM potatoes and other companies followed. As a result, Monsanto stopped producing the GM potato. Although the Bt potato did have its disadvantage, it also had its advantages. The obvious advantage is that it protected the potatoes from the Potato Beetles and the PVY virus. As well, it ensured quality potatoes and farmers saved money on insecticide. As well, insecticides and pesticide chemicals affected the farmers’ health. One drawback of the potato was pests became resistant to insecticides and the Bt potato as well. Since discontinued, North America no longer grows genetically modified potatoes. 
 
potatobeetle2.JPG photo - Janet Forjan-Freedman photos at pbase.com. (n.d.). PBase.com. Retrieved February 21, 2011, from http://www.pbase.com/janet_from_dundas/image/50733359
Now that we know the past of the GM potato, we can now discuss the present, the Amflora potato. The Amflora potato was designed thirteen years ago by a German company BASF. Before discussing what an Amflora potato is, we must understand that potatoes contain starch. The starch of potatoes contains two different components in different proportions. Eighty percent of the potato’s starch contains amylopectin, which is soluble in water and makes the starch sticky. This component of the starch is perfect for use in chemical industries, producing food, paper, glue, lubricant etc. The second component of the starch is Amylose, which is used in films and foils. The starch in traditional potatoes in not “ideal” for the use in chemical industries, therefore amylopectin and amylose must be separated.  Although it can be done, separating the two components is an expensive procedure and bad for the environment since it wastes energy, water and chemicals. SOLUTION: Create a potato that contains ONLY amylopectin. Since breeding methods have failed, genetic engineers have used the “antisense technique” to separate the two components. A molecule called messenger RNA (mRNA) is used to help express genetic information of genes. When the mRNA travels to the ribosomes, proteins are created and the genes are “expressed”. The potato is modified by doing the opposite, using “antisense genes”. When antisense genes are present, the mRNA creates a “mirror image” of the gene and two mRNAs attach to each other and can no longer perform their function. Therefore, proteins are not able to be synthesized; the gene is “blocked” from producing amylose.

 
Hickman, M. (2010, March 4). Fury as EU approves GM potato - Green Living, Environment - The Independent. The Independent | News | UK and Worldwide News | Newspaper. Retrieved February 21, 2011, from http://www.independent.co.uk/environment/green-living/fury-as-eu-approves-gm-potato-1915833.html
 The Amflora potato is currently being used for industrial use only. The advantages of having a genetically modified potato is it more economical, and according to BASF, paper is made more glossier, yarn is stronger, glue lasts longer and concrete sticks better, products overall are better! BASF would also like to use waste of the potato for animal feed and bio-fuel. This has alarmed Europeans, because if an animal eats the GM potato skins, it may modify the animal. Not only will this have an affect on the animal’s health, but if we consume the animal it may affect our health as well. An enzyme produced by the Amflora gene causes antibiotic resistance to antibiotics such as kanamycin, neomycin, butitosin, gentamicin and now it will be difficult to fight disease. As well, in North America genetically modified food does not need to be labelled, but in Europe genetically modified food is rare and must be labelled. However, these animals consuming the genetically modified potato skins will not be labelled as genetically modified. Not only is this a health issue, but this is also an ethical issue, because people have the right to know if the meat they are consuming had contact with genetically modified food.

Genetically Modified Potato. (2008, December 4). GMO COMPASS - Information on genetically modified organisms. Retrieved February 21, 2011, from http://www.gmo-compass.org/eng/grocery_shoppingcrops/23.genetically_modified_potato.html
 
  
Amphibians May Develop Immunity To Fatal Fungus. (n.d.). Science Daily: News & Articles in Science, Health, Environment & Technology. Retrieved February 21, 2011, from http://www.sciencedaily.com/releases/2009/04/090401101745.html

Now that we have discussed the past and the present of the GM potato what will the future have in store for the GM potato. Researchers at University of Victoria, used frog genes to resist pathogens such as Phytophthora infestans. South American Frogs “excrete” a chemical in their skin to fight off bacteria and other pathogens. An effective chemical is called B1 (found in the skin of tree frogs), called Phyllomedusa bicolour. The team of researchers showed that by inserting a “synthetic” of this gene into the potato, the plant was able to resist disease-causing fungi and bacteria responsible for dry rot, late blight, and pink rot. This potato has many benefits and is ethical. Late blight is responsible for the 1846 potato famine in Europe and causes significant crop loss each year. This potato could help farmers in developing countries. With resistance to pathogens, farmers will spend less money on chemicals and increase potato production. Researchers at Victoria University say that the potato is safe to eat, but critics say dermaseptin B1 should be tested to see if it is toxic to people and animals, and does the chemical get broken down in the body (or else it will build up) and I agree with them!