Human Cloning
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Human Cloning
Have you ever had a loved one die of cancer or seen a story about a little boy who was injured in a car accident? If there was a way to prevent this or have a cure for life threatening diseases wouldnt you want to use it? Human cloning may be the answer to these problems. With todays technology, scientists are finding ways to clone cells to replace unhealthy cells in the body that have been damaged. Human cloning is now theoretically possible; with the success of the clone “Dolly” the sheep, we are closer than ever to making a human clone, but is it a good idea? The philosophical question of human cloning and the existence of a “soul” are ideas that are thought to be the best arguments against cloning. Although the possibilities of benefits from cloning may exist in the distant future, it would mean whole generations of human beings are doomed to die for the sake of medical research, and, therefore, cloning should be banned.
Dolly is a very familiar name to most people. Dolly was the first successful clone of a mammal, a sheep. These days cloning and stem-cell research, which go hand in hand, have become hot button issues and political platforms. But what exactly is cloning? To most people a clone means an exact duplicate of another animal. Because of movies and television shows, people have come to believe that cloning would allow you to have another “you,” someone with the same talents, looks thoughts, and memories. But this is not necessarily true.
The Presidents Council on Bioethics in July of 2002 defined cloning as “A form of reproduction in which offspring result not from the chance union of egg and sperm (sexual reproduction), but from the deliberate replication of the genetic makeup of another single individual (asexual reproduction.” So essentially the accepted meaning of cloning is that a clone is an artificially created animal, or theoretically human, by use of genetic material from one parent.
According to Oak Ridge National Laboratorys (ORNL) website, there are three different types of cloning”: 1 recombinant DNA technology, 2 reproductive cloning, and 3 therapeutic cloning” (“Cloning Fact Sheet).
ORNLs cloning fact sheet says that “gene cloning” is a process that involves transferring a certain segment of DNA from an animal to a sort of culture made of cells that self replicate. This allows that segment of DNA to then be cloned in side of another cell. This process is not uncommon in many laboratories and has been used since its inception in the 1970s (“Cloning Fact Sheet).
Gene cloning differs from reproductive cloning, because rather than cloning just a segment of DNA; the entire DNA strand is duplicated in order to create an exact genetic replica of the original animal. The ORNL says that reproductive cloning is the process in which the DNA from a donor cell is transplanted into a host cell from which the nucleus and genetic material has been removed. The host cell is then stimulated in order to make it divide. The created embryo is then allowed to divide until a “suitable age,” when it is implanted into the uterus of a female where it will grow until birth (“Cloning Fact Sheet”).
The “Cloning Fact Sheet” says:
Dolly or any other animal created using nuclear transfer technology is not truly an identical clone of the donor animal. Only the clones chromosomal or nuclear DNA is the same as the donor. Some of the clones genetic materials come from the mitochondria in the cytoplasm of the enucleated egg. Mitochondria, which are organelles that serve as power sources to the cell, contain their own short segments of DNA. Acquired mutations in mitochondrial DNA are believed to play an important role in the aging process (“Cloning Fact Sheet”).
This means that the clone will not age the exact same way the DNA donor did, so it will not be a perfect replica.
The final method of cloning is referred to as embryo cloning. Embryonic cloning uses the same method as reproductive cloning, but instead of growing the embryo until birth it is extracted after only a few days of division. This is done in order to retrieve stem cells from the embryo. Stem cells have the ability to “generate virtually any type of specialized cell in the human body,” says the ORNL (“Cloning Fact Sheet”). Stem cells are thought to have the potential to cure many diseases such as cancer, heart disease, Alzheimers, and many other such diseases.
Those who favor cloning point out that human cloning technology can be used to benefit health in many ways. Cloning could find the cure to diseases such as cancer, kidney failure, cystic fibrosis, and replace damaged skin from burns or other injuries. Scientists can learn how to switch cells through cloning, and figure out why some cells become cancerous. Stem cells can transform themselves into any cell type that makes up an organ. Scientists hope they might eventually be able to replace entire organs that have been lost. The possibilities are inviting, consider that heart disease is the number one killer in America and many other industrialized countries; by cloning we could stop this trend and save thousands of lives. The benefits of pursuing this technology are even more striking when we note that the average person carries eight defective genes allowing him or her to become sick more easily when he or she should be healthy. Human cloning could take care of the defective genes and deep us from getting sick.
Human cloning goes along with stem cell research. Stem cell research is a way that humans can help other humans with diseases that can be cured by one little cell, a stem cell. We have to obtain these stem cells from human beings. Currently the most abundant human source that scientists can take stem cells from is aborted fetuses. Scientists figured out that if they cloned a human and took that clones stem cells then it is not actually murder because the argue that cloned humans are not human at all. They say that they have no soul because they are created by science. The ethical question needs an answer: “does a cone have a soul?” (Jeddy).
Scientists not only want to create clones for stem cell needs, but also for creating a clone of a certain individual. This should not be done, for cloning a person brings up many health risks. The first is gene mutation. Imagine that a person who is 25 years old wants to get a clone. Scientists use a single gene from him to create himself. This gene that they are using could be 25 years old which would mean at birth the child could be 25 years old. Dr. Patrick Dixon