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Cloning: What Is the Right Thing to Do?

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Cloning: What Is the Right Thing to Do?

Multiple Source Essay

Cloning:

What is the Right thing to do?

Cloning offers many applications, especially in medicine, however, in spite of the many advantages, many people still consider the idea of human cloning, and the practice of cloning all together to be immoral. This opinion is rarely based on a careful analysis of facts, often only a spontaneous reaction. Cloning technology has potential for doing much good, research in human cloning should continue, although some applications of it may need to be restricted.

Cloning is the process of extracting the DNA out of a donor’s cell and implanting this genetic code in another cell in order to grow a being with identical genes, thus virtually duplicating the donor. The term clone refers to the new being that has identical genes to the donor. There are three types of cloning, when the media reports on cloning they are generally referring to reproductive cloning. There is also recombinant DNA Technology, and therapeutic cloning (McGee, Human Cloning Debate).

Reproductive cloning is a technology used to generate an animal that has the same nuclear DNA as another. Scientist transfer genetic materials from the nucleus of a donor adult cell to an egg whose nucleus has been removed. This reconstructed egg containing the DNA must be treated with chemicals or electric current to stimulate cell division. Once the cloned embryo reaches a suitable stage it is transferred to the uterus of a female host where it develops until birth (Paul Lauritzen, Cloning). The most notable example of reproductive cloning was dolly the sheep.

Another type of reproduction is “recombinant DNA technology,” or “gene cloning.” To clone a gene, a DNA fragment containing the desired gene must be obtained from the chromosomal DNA using restriction enzymes and then united with a plasmid that has been cut with the same restriction enzymes. When the fragment of chromosomal DNA is joined with its cloning vector in the lab it is called a recombination DNA molecule (Paul Lauritzen, Cloning).

The most controversial type of cloning is therapeutic cloning. The goal of this process is not to create cloned humans, but to harvest stem cells that can be used to study human development and to treat disease. Stem cells are important to biomedical researchers because they can be used to generate any type of specialized cell in the human body. Therapeutic cloning has many medical opportunities that will continue to be investigated for years into the future (Nash, Age of Cloning).

Research in cloning began as early as 1952 when researchers in Pennsylvania attempted to clone a frog from an embryonic cell. This practice is called embryo twinning and is commonly used in the cattle industry (Nash, Age of Cloning). Despite these early successes, advances in cloning slowed because it is much more difficult to extend the full DNA from adult cells that from cells in an embryonic stage. In the 1980’s biologists at the Allegheny university of Health Sciences came very close. The team tried to clone frogs from adult red blood cells, and healthy tadpoles developed, but halfway through the experiment the tadpoles died while trying to change into frogs (Nash, Age of Cloning). As recently as 1997 a group of British researchers succeeded in “unfolding” the whole DNA from the udder Cell of a grown sheep, and subsequently cloned the ewe. Cloning is still far from being perfected, before that one sheep was successfully cloned two hundred and seventy-seven tries failed (Nash, Age of Cloning).

Cloning is a very controversial subject, many believe it is morally wrong. Cloning does have some advantages though. Areas that will certainly profit from cloning are medicine and medical research. With cloning it might be possible to provide patients having terminal illnesses with replacement organs that match them perfectly. This is where things get controversial. It would be possible to use stem cell research to grow a new organ for a dying person, you would be able to give the recipient a perfect match without having to worry about rejection of the organ, which is fatal in most cases. In medical research cloning could give deep insights into problems concerning spinal chords, heart muscles, or brain tissue that will not regenerate after an injury. Finally, it may help us understand some cancer cells that return to an embryonic stage and grow uncontrolled, we may find a way of stopping this uncontrolled growth.

Cloning can also be of great value when helping infertile couples to have a child because the procedure of gathering the zygotes becomes much easier and shorter. Lisa Geller, a neurobiologist from Harvard University, states that cloning is so similar to in vitro technology, which has been used for

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