| Cloning
Technology
Cloning can be a very sensitive subject. It seems that it?s
a battle between science and ethics. Does the ladder outweigh
the former or vice versa? Maybe a few definitions will shed
some light on the subject. ?Cloning is to create a genetic
duplicate of an individual organism through asexual reproduction,
as by stimulating a single cell? (Webster?s 211). ?Parthenogenesis
is reproduction of organisms without conjunction of gametes
of opposite sexes.? (Webster?s 800). Cloning has its medical
uses, but do the ethical implications outweigh the advantages?
The goal of genetic engineering is that every child be born
strong, healthy, and well suited to make its way to the world.
If genetic engineering would be used in this way the world
would probably be a place of less disease. Sure it may be
unethical to do some tests on humans, but without them medical
progress would come to a halt. Cloning might also directly
offer a way of curing diseases or a technique that could extend
means to acquiring new data for the sciences of embryology
and how organisms develop as a whole over time. Science has
been trying for years to come up with cures for genetic diseases
and so far haven?t really come up with anything that is truly
helpful. On the other hand, with the technology of genetic
engineering scientists may finally be able to start to understand
the causes of diseases and to develop possible treatments
and even prevention. For instance, the most studied disease
is Cystic Fibrosis. Although, we have not found a cure yet,
science ! might be getting close to coming up with a way of
preventing Cystic Fibrosis. Science has made some major discoveries
in the past forty years. In the 1960?s two French scientists
by the names of Jacques Monod and Francois Jacob showed that
genes can be turned on and off by what are called regulator
genes. If it were possible to manipulate the regulator genes,
than it would be possible to turn Cancer cells off and prevent
it. It is expected that 185,000 people will be diagnosed with
a brain tumor alone in 2000. That?s just brain Cancer, imagine
how many lives would be saved if all Cancer cells could be
turned off. Cloning isn?t just an advantage to the medical
field. It would provide a link for a replacement to artificial
insemination. Couples, who are unable to have children, or
have genetic disorders, could use cloning to produce a child.
Plus, women who are single could have a child using cloning
instead of artificial insemination.
Natural cloning occurs too. All plants, some insects, algae,
unicellular organisms that conduct mitosis or binary fissions,
and identical twins are all clones of each other. As long
as genetic make-up is the same they are clones, and a splitting
embryo that creates two identical embryos produces twins.
The difference between twins and clones, however, is that
twins are new in genetic variation and unique from anything
that came before them. Even if clones don?t have genetic variation
they would closely resemble identical twins and more than
likely would be accepted by the world as twins would. After
all, there are some eight million identical twins alive today,
so it is safe to say that about eight million ?human clones?
are alive today. Plus, who is to differentiate between a clone
and an identical twin? The world isn?t going to be able to
distinguish between the two anyway.
Cloning is going to continue to be the subject of books,
television shows, and movies. It has already been featured
numerous times on the Discovery Channel and TLC. Dolly, the
cloned sheep, was featured on the news for about four weeks.
It is easy to get carried away and start thinking about what
cloning will do to our future. However, it?s better to stop
fantasizing about how human clones are going to take over
the job market, but to look at what cloning has already done.
Thus far only the advantages of cloning have been described.
It is only fair to know that cloning possesses some bad aspects
as well. In case one didn?t know already genes are the basic
units of inheritance. They are what make a plant, an animal,
or a human being resemble its parents. Clones are carbon copies.
They have the genetic information of only one parent. There
is no mixing of genes with the chance of change. Therefore,
clones would be deprived of a feeling of individuality and
uniqueness. At least with natural reproduction genetic variation
occurs and makes every person an individual. Without genetic
variation everyone would be exactly the same and the world
would be boring.
Not only will it erase individuality, which is almost bad
enough in it, but also it will also eliminate the ?bad genes?
and lead to dangerous narrowing of diversity in the gene pool.
What does that mean? It means that if everyone is cloned over
and over again off the same genes, there is a bigger chance
of a mutated gene being prominent and then there would be
no way to get rid of it. This is the main reason that science
is reluctant to clone humans. So, what happens when we decline
genetic diversity and the gene pool and we lose the ability
to clone? Well, that?s simple we resort to a little process
known as inbreeding. Inbreeding also increases the chance
of transmitting mutated genes. In fact, zoologists and environmentalists
trying to save endangered species are not having problems
keeping population numbers up, but finding animals to breed
that are not cousins.
Most scientists believe that cloning would create deformed
or otherwise defective babies. For instance, some of the lambs
produced by cloning before Dolly were larger than normal.
It is very likely that defects would arise indeed for no other
reason than the fact that the ability isn?t good enough to
clone humans. ?The nucleus of a skin cell could have accumulated
many genetic mistakes of no consequence to its role in the
skin, but when asked to make a brand new organism these could
prove deleterious in other tissues, or greatly increase the
probability of developing cancer? (Beddington np).
Now that the advantages and disadvantages have been expressed
the author feels that an example of the processes of cloning
would be appropriate. The first example is the cloning of
a frog.
1. The nucleus is removed from a frog egg. It is now called
an enucleated egg. 2. A section of intestine is taken from
a tadpole.
3. A cell from that intestinal tissue is taken and its nucleus
removed. 4. The nucleus from the tadpole cell is put into
the enucleated frog egg. 5. The egg, with its new nucleus,
begins to divide and develop into a tadpole and then an adult
frog. The frog?s genes are exactly like those of the tadpole
because its instructions came only from the nucleus of the
tadpole. The frog is a clone.
The next example of how cloning may be used is a cow embryo
being shipped in the uterus of a rabbit.
1. Eggs are taken from a cow.
2. They are fertilized in a laboratory dish and begin to
grow in the nutrient solution.
3. When they reach the hollow ball or blastula stage, each
embryo is placed in a rabbit uterus.
4. The rabbit is shipped to another country...
5...and the embryo taken from the rabbit and replaced in
the uterus of a cow. Thus far, the paper has listed the medical
uses and ethical implications for cloning. Plus, an added
bonus of processes in which cloning has been successful. Now,
most people probably already have strong opinions about cloning
and maybe this paper gave readers something on which to base
their opinions. The goal of this paper wasn?t to convince
the reader of cloning being advantageous or not, but instead
to help people realize that the world is in store for some
major technological advances and everyone must be prepared
to deal with controversial issues such as the one presented
above. If one is not able to deal with change then technology
is just going to leave them behind. Like it or not technology
is not going to stop progressing, so the world is going to
have to learn to accept what is happening.
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