Transgenic Rice Plants Essay Research Paper The

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Transgenic Rice Plants Essay, Research Paper The following form contents were entered on 15th Apr 97 Date = 15 Apr 97 23:58:50 subject = School Sucks resulturl = http://www.schoolsucks.com/thanks/ name = Sarah Lenhardt email = sxl63@po.cwru.edu publish = yes subject = Biology title = Transgenic Rice Plants papers = Please put your paper here. Transgenic Rice Plants that Express Insect Resistance For centuries, rice has been one of the most important staple crops for the world and it now currently feeds more than two billion people, mostly living in developing countries. Rice is the major food source of Japan and China and it enjoys a long history of use in both cultures. In 1994, worldwide rice production peaked at 530 million metric tons. Yet, more than 200 million tons of

rice are lost each year to biotic stresses such as disease and insect infestation. This extreme loss of crop is estimated to cost at least several billion dollars per year and heavy losses often leave third world countries desperate for their staple food. Therefore, measures must be taken to decrease the amount of crop loss and increase yields that could be used to feed the populations of the world. One method to increase rice crop yields is the institution of transgenic rice plants that express insect resistance genes. The two major ways to accomplish insect resistance in rice are the introduction of the potato proteinas e inhibitor II gene or the introduction of the Bacillus thuringiensis toxin gene into the plant’s genome. Other experimental methods of instituting insect

resistance include the use of the arcelin gene, the snowdrop lectin/GNA (galanthus nivallis agglutinin) protein, and phloem specific promoters and finally the SBTI gene. The introduction of the potato proteinase inhibitor II gene, or PINII, marks the first time that useful genes were successfully transferred from a dicotyledonus plant to a monocotyledonous plant. Whenever the plant is wounded by insects, the PINII gene produces a protein that interferes with the insect’s digestive processes. These protein inhibitors can be detrimental to the growth and development of a wide range of insects that attack rice plants and result in insects eating less of the plant material. Proteinase inhibitors are of particular interest because they are part of the rice plant’s natural defense

system against insects. They are also beneficial because they are inactivated by cooking and therefore pose no environmental or health hazards to the human consumption of PINII treated rice. In order to produce fertile transgenic rice plants, plasmid pTW was used, coupled with the pin 2 promoter and the inserted rice actin intron, act 1. The combination of the pin 2 promoter and act 1 intron has been shown to produce a high level, wound inducible expression of foreign genes in transgenic plants. This was useful for delivering the protein inhibitor to insects which eat plant material. The selectable marker in this trial was the bacterial phosphinothricin acetyl transferase gene (bar) which was linked to the cauliflower mosaic virus (CaMV) 35S promoter. Next the plasmid pTW was

injected into cell cultures of Japonica rice using the BiolisticTM particle delivery system. The BiolisticTM system proceeds as follows: Immature embryos and embryonic calli of six rice materials were bombarded with tungsten particles coated with DNA of two plasmids containing the appropriate genes. The plant materials showed high frequency of expression of genes when stained with X-Gluc. The number of blue or transgenic units was approximately 1,000. After one week, the transgenic cells were transferred onto selection medium containing hygromycin B. After two weeks, fresh cell cultures could be seen on bombarded tissue. Some cultures were white and some cultures were blue. Isolated cell cultures were further selected on hygromycin resistance. However, no control plant survived.