Genetic Engineering In Flowers For Algernon By Daniel Keyes

Genetic engineering is the science of altering and or cloning genes to produce a specific trait in an organism. The evolution of genetic engineering is growing into something monstrous. Genetic engineering may have its advantages, but it also has its disadvantages, because it's changing the world around us. In the book Frankenstein, Mary Shelley demonstrates how technology has become monstrous and genetic engineering is just as malicious as the monster in her novel.

Genetic engineering is the modification of an organism’s genetic material. This has been done worldwide in genetically modified crops, and to a limited extent in animals. In human genetic engineering, the modification is done in the embryo, altering the traits the child is born with and will pass on. Laws have been passed in many countries making this illegal. In the U.S., this is a highly debated and controversial subject, but human genetic engineering is legal.

Genetic engineering is the deliberate modification of the characteristics of an organism by manipulating its genetic material, otherwise known as DNA. Since biochemists Stanley Cohen and Herbert Boyer pioneered genetic engineering in 1973, the process has grown to have numerous applications such as medicine production, for example insulin (Mckinley). However, a main topic of concern is the application of genetic engineering on foods that we eat everyday. By modifying the genetic "blueprint" of crops, it is possible to improve many aspects of agriculture. But with any sort of scientific discovery that allows humans to act as Mother Nature, genetically modifying organisms has been a very controversial topic. Yet our society continues to grow, and the need for the benefits of genetically modified foods continues to grow. Genetically modifying foods should be permitted in our society because it allows larger yields of crops to be produced, produces foods with higher nutritional values, and reduces our global ecological footprint.

The altering of human genes could save lives. You could cure cystic fibrosis or alzheimer's. This would save the lives of many (Doc. 3). This technology could also give you children with specific traits of your choice. Also, this engineering can leave people painfree. This is not good because they can’t detect danger. As a plus side, scientists will eventually take the gene that causes this and help cure those with chronic long lasting pains (Doc. 2). This would make more people happy and healthy across the nation! Eventually we could go so far as to make a genetically engineered nation. As you can see, Genetic Engineering also could have a positive effect on

Manipulating genes to behave according to what a person wants seems unrealistic. In our day and age, it is becoming a reality. Genetic engineering is being used in many ways, such as eliminating a specific genetic disease, or even selecting the gender and eye color of a baby (Skerrett). Genetic engineering is potentially dangerous.

Genetic engineering can be a good thing and a bad thing. In the movie "Gattaca", Vincent, average person, was naturally conceived. This was in a time were babies were genetically modified. Genetic engineering is the direct manipulation of organisms using a type of science called Biotechnology. He wasn't considered healthy because he wasn't genetically engineered.

Genetic engineering is a very beneficial thing for every human. Some advantages involve individuals health and affect society in general. The lifespan of a human is increased, the extinction of illness in children and babies and healthier foods with a cheaper production cost are all rewarding devices of genetic

Genetic engineering is the science of altering genes to produce a specific trait in an organism. Although it seems beneficial and inventive, genetic engineering is growing into a big problem. Genetic engineering may have its advantages, but it also has its disadvantages because it is negatively changing our society. In the book Frankenstein, Mary Shelley demonstrates how technology has become monstrous, and genetic engineering is just as malicious as the monster in her novel.

3. Foods can be processed more efficiently when they are genetically engineered. Production elements themselves can be genetically engineered, which can saves time, money and space.

It’s been seen in movies like Gattaca, and now reality is catching up to fictional genetic engineering. Genetic engineering is defined as the deliberate modification of an organism’s characteristics by manipulating genetic material. Rapid progression in this field has already taken place; today, over 40% of the world’s food is genetically modified and this science has begun to allow parents to select the traits they want in their children. As of right now, genetic engineering is a fresh concept not completely accepted or understood, but by 2041, it will as common practice as smartphones are commonplace because of its contribution to the quality of life.

Genetic engineering is the alteration of an organism’s genotype using recombinant DNA technology to modify an organism’s DNA to achieve desirable traits. (OpenStax 459). The main purpose however of genetic engineering is to deepen the understanding of how genetics works, as well as how it can be applied to the rest of the world. For example growing body parts on mice, or make crops resistant to pesticides, help them grow faster, make them produce faster and much more. The process of genetic engineering according to FAO Corporate Document Repository occurs in 9 steps:

Genetic engineering is the process of manipulating genes by adding new DNA or modifying the genome (which is a made of DNA) to add new beneficial traits in that organism using biotechnology. It removes the DNA from one organism and transfers into another organism. This changes the actions of the genes to serve human goals. DNA plays a huge role in this process. It contains human’s unique genetic code and also hold the instruction to make the proteins in the body.

Many technologies used had a favorable position for meeting our current and future food supply demands. Biotechnology and bioengineering used in the GMO products such as agriculture and food. For non-food use, GMO will include improving proteins to create new vaccines. According to WHO, proponents of the technology of genetic cloning and modifications proclaims as a promising revolution in the production of food and pharmaceuticals and even as heralding the end of world hunger. However, It is important to be aware that, despite some advantages, there are numerous disadvantages that must be considered. One concern ,such as, consumers having

Genetic engineering is transferring a trait from species 1 and inserting into another species 2 to create species 3 with the same traits of species 1 & 2 such as dog breeding. Dog breeding is a perfect example of genetic engineering is a growing business due to now you are able to create the traits that you want in a dog or cat.

Genetic engineering techniques have been applied to various industries, with some success. Medicines such as insulin and human growth hormone are now produced in bacteria, experimental mice such as the oncomouse and the knockout mouse are being used for research purposes and insect resistant and/or herbicide tolerant crops have been commercialized. Plants that contain drugs and vaccines, animals with beneficial proteins in their milk and stress tolerant crops are currently being developed