Genetic engineering of animals has become a hotly debated topic in both secular and religious settings because of recent technological advances in the field and the profound unnatural outcome of the process. In other words, genetic engineering in animals is a genetic development in organisms that is not in accordance with the laws of nature. Animals that have been genetically altered include micro-organisms such as yeast and fungi and others like mammals, insects, and plants. The primary areas of debate are the labling of GM (genetically modified) foods, the extent of government regulation in the process, concerns about the consequences of genetic modification, and the overall health and safety of animals being used for this system. Because of the countless benefits of pursuing and using genetically engineered animals, the system should continue but should also receive heightened regulation by the government to secure extended rights for animals and proper safety for humans.
Genetic modifying of animals found its beginning and the beginning of controversy in America nearly forty years ago. “Genetic engineering is a process in which scientists use recombinant DNA (rDNA) technology to introduce desirable traits into an organism” (Animal & Veterinary). During 1972, a Stanford University professor documented the first compilation of recombinant DNA, in other words; he recombined DNA molecules from preexisting DNA. Not soon after this discovery, the methodology was pursued by scientists at the University of California where they successfully transferred the recombined DNA into bacteria. Not only could the DNA be properly sustained and duplicated but it could also function like normal cells. Not long after these profound discoveries...
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...vely and wisely. Theology and basic morality provide the limits to genetic engineering and the governments in the world should stay within these limits.
Works Cited
"Animal & Veterinary." Genetically Engineered Animals. N.p., n.d. Web. 6 Apr. 2014.
"ECONOMICS AND ETHICS IN THE GENETIC ENGINEERING OF ANIMALS." harvard.edu/. n.d. Web. 5 Apr. 2014.
"Ethical Issues in Genetic Engineering and Transgenics." Actionbioscience. N.p., n.d. Web. 6 Apr. 2014.
"Genetic Engineering Could Rescue Animals, Plants from Extinction." Bioscience Technology. N.p., n.d. Web. 6 Apr. 2014.
"Lab Animal Welfare." Genetic Engineering. N.p., n.d. Web. 6 Apr. 2014.
Ormandy, Elisabeth, Julie Dale, and Gilly Griffin. "Current context of genetically engineered animals." National Center for Biotechnology Information. U.S. National Library of Medicine, 5 Oct. 1930. Web. 5 Apr. 2014.
A person's individuality begins at conception and develops throughout life. These natural developments can now be changed through genetically engineering a human embryo. Through this process, gender, eye and hair color, height, medical disorders, and many more qualities can be changed. I believe genetically engineering a human embryo is corrupt because it is morally unacceptable, violates the child's rights, and creates an even more divided society.
Lucassen, Emy. “Teaching the ethics of genetic engineering” Journal of Biological Education 29 (Summer 1995): 129-139.
Picture a young couple in a waiting room looking through a catalogue together. This catalogue is a little different from what you might expect. In this catalogue, specific traits for babies are being sold to couples to help them create the "perfect baby." This may seem like a bizarre scenario, but it may not be too far off in the future. Designing babies using genetic enhancement is an issue that is gaining more and more attention in the news. This controversial issue, once thought to be only possible in the realm of science-fiction, is causing people to discuss the moral issues surrounding genetic enhancement and germ line engineering. Though genetic research can prove beneficial to learning how to prevent hereditary diseases, the genetic enhancement of human embryos is unethical when used to create "designer babies" with enhanced appearance, athletic ability, and intelligence.
How many of you hear the words “genetically modified food” and immediately think “BAD”? How many of you scorn the idea that genetically modified foods are useful? How many of you have been manipulated by the media to think that all biotechnology is evil? Genetically modified organisms (GMOs) are organisms that have been genetically spliced to achieve a certain trait. As the demand for a larger food supply is increasing due to population growth, the benefits that GMO foods provide are being hailed as the only solution to the food crisis. However, many people are making inadequately informed decisions, and are pushing them to the back shelf. I will inform you on why genetically modified organisms may be the only way to a stable, safe future for the less fortunate.
Science and technology are rapidly advancing everyday; in some ways for the better, and in some, for worse. One extremely controversial advance is genetic engineering. As this technology has high potential to do great things, I believe the power genetic engineering is growing out of control. Although society wants to see this concept used to fight disease and illness, enhance people 's lives, and make agriculture more sustainable, there needs to be a point where a line is drawn.
Genetic engineering on animals is the latest experimental practice used in the world of biomedical research. It has allowed the progression of human understanding towards the study of diseases and medicine. With the emergence of this technology, comes a wide range of ethical issues that need to be addressed, such as the welfare and the uncertainty of predisposed risk towards the animal. Furthermore, the current state of this practice in the United States is still new. Therefore, there is little regulation by the government along with the scientific community in enforcing specific guidelines to consider the welfare of the animals. The implication of the scarcity of regulating genetic engineering opens the possibilities of mistreatment of animals
"When they are finally attempted…genetic manipulations will…be done to change a death sentence into a life verdict." In agreeing with this quote by James D. Watson, director of the Human Genome Project, I affirm today’s resolution, "Human genetic engineering is morally justified." I will now present a few definitions. Human genetic engineering is the altering, removal, or addition of genes through genetic processes. Moral is "pertaining to right conduct; ethical." Justified is to be "proper; well-deserved." Therefore, something that is morally justified is ethically beneficial. My value today will be cost-benefit justice. When we examine the benefits that human genetic engineering provides to society, these benefits will outweigh any costs and will thus affirming the resolution will provide for justice. I will now present one observation—the existence of human genetic engineering will not be without limits. Patrick Ferreira, the director of medical genetics at the University of Alabama Hospitals, notes that a "technological imperative [states] that the development of extraordinary powers does not automatically authorize their use." In other words, the point of technology is to be careful, and as with any technology, a society will be meticulous in its understanding of human genetic engineering. I will now present 3 contentions that uphold my value of cost benefit justice.
Kraemer, Duane C. “Genetically Altered Animals Will Benefit Humankind.” Genetic Engineering: Opposing Viewpoints. Ed. Carol Wekesser. San Diego: Greenhaven Press,
Richard Williams proposed that the issue of human freedom be re-conceptualized. Rejecting the traditional view of self-direction as the possibility of choosing among alternatives, Williams suggested that we ground our understanding of individual freedom in morality. In this view, human freedom is enhanced as one "lives truthfully." Truthful living runs counter to self-deception and thereby opens the way for greater freedom, which is fundamentally concerned with being, or existing. It is also concerned with doing or choosing, but only as such individual actions harmonize with an already existing schema of existence When the act of choosing results in self-deception, one cannot automatically assume that choice has been exercised. If deception occurs, one has merely used the freedom to choose to step out of the arena in which it exists. The Aristotelian ethics concurs with the basic tenets of Williams' philosophy.
Shortly after the groundbreaking discovery of the structure of DNA in 1953, the scientific world was essentially given the ability to alter the genetic sequence of any living organism using a process known as 'genetic engineering'. By definition, genetic engineering is 'the deliberate modification of the characteristics of an organism by manipulating its genetic material', it is quite simply an unnatural process which defies the ordinary course of nature. As of yet, no devastating or permanent damage has been done. However, the unpredictable nature and unknown consequences genetic engineering holds is more than enough reason to be cautious, as one mistake could have irreversible and catastrophic effects.
Sandel, M. J. The case against perfection, ethics in the age of genetic engineering. Belknap Press, 2007. Print.
Genetic engineering gives the power to change many aspects of nature and could result in a lot of life-saving and preventative treatments. Today, scientists have a greater understanding of genetics and its role in living organisms. However, if this power is misused, the damage could be very great. Therefore, although genetic engineering is a field that should be explored, it needs to be strictly regulated and tested before being put into widespread use. Genetic engineering has also, opened the door way to biological solutions for world problems, as well as aid for body malfunctions. I think that scientists should indeed stop making genetic engineering for humans, because it will soon prove to be devastating to the human race. It would cause rivalries and tension among different kinds of genetically engineered humans for dominance and power.
“Genetically modified foods are a "Pandora's box" of known and unknown risks to humans and the environment. They have been forced onto the American public by multinational biotech and agribusiness corporations without adequate oversight and regulation by the United States government (Driscoll, SallyMorley, David C).”Genetically Modified Food is food which has been chemically altered by scientists during the production process to give the food more nutrients, better appearance, and a longer shelf-life (Rich, Alex K.Warhol, Tom). The importance of this issue is that these GMO’s can actually have a negative effect in our society in general. It could mutate in a negative way and cause cancer or other diseases. Genetically modified food should be strictly controlled due to its various detrimental effects on the environment, human health, and potentially insect/animal effects.
Human genetic engineering has the capability to transmit usually fatal diseases. Although transmission is highly unlikely, it is one of the risk factors scientists have taken into great consideration. If animal cells or organs are transplanted into humans, zoonotic diseases may be spread. Bovine Spongiform Encephalopathy, Porcine Endogenous Retroviruses, and Nipah Encephalitis are all potentially fatal zoonotic diseases that could be transferred (Glenn). According to Linda MacDonald Glenn, J.D., L.L.M., “The introduction of these diseases to the human population could have devastating consequences” (Glenn). Human genetic engineering may also cause the production of unwanted mutations such as developmental issues. The procedures that would be used for genetically modifying human cells would include numerous alterations to sperm, eggs, stem cells, or embryos before entering a woman’s uterus. This could potentially modify the growth and development of the fetus in ways that have not yet b...
The Problem Genetic engineering has been around since the 1960’s, although major experiments have not been really noticed until the 1990’s. Science comes in different forms, the two major being cloning and genetic reconstruction. Cloning is the duplicating of one organism and making an exact copy. For example, in 1996 the creation of the clone sheep named Dolly, the first mammal to be cloned, which was a great achievement. The other form, genetic reconstruction, is used to replace genes within humans to help or enhance the life of an unborn child for a medical reason or just for the preference of a parent.