The engineering of deoxyribonucleic acid (DNA) is entirely new, yet genetics, as a field of science, has fascinated mankind for over 2,000 years. Man has always tried to bend nature around his will through selective breeding and other forms of practical genetics. Today, scientists have a greater understanding of
genetics and its role in living organisms. Unfortunately, some people are
trying to stop further studies in genetics, but the research being conducted
today will serve to better mankind tomorrow. Among many benefits of genetic
engineering are the several cures being developed for presently incurable
diseases. Genetics has also opened the doorway to biological solutions for
world problems, as well as aid for body malfunctions. genetic engineering is a
fundamental tool for leading the world of medicine into the future; therefore,
it is crucial to continue research in this field.
Today’s research in genetic engineering is bringing about new methods for curing and treating major medical illnesses. The Human Genome Project has allowed geneticists to map the genes of human beings. This project is far from complete, as the DNA sequence of humans is extremely long, yet it will eventually show geneticists which genes are responsible for certain inherited diseases.
The Term Paper on Genetic Engineering in Humans
... the concerns of today. This suggests the paramount significance of exploring ethical issues and the consequences of human genetic engineering, as history ... dignity of all persons” [8] when carrying out research and experimentation. When faced with unique bioethical concerns emerging from ... states “it’s illegal to discriminate on the basis of genetics—genoism it’s called—but no one takes the laws ...
Identified genes could be repaired, resulting in the irradiation of inherited
diseases, such as cancer. Just last year, the locations of genes for several
diseases were confirmed and may soon be correctable. Secondly, research in
genetics has brought about a new medical field, genetic counseling. Couples
planning to have children can visit a genetic counselor and identify what
medical difficulties their child may have. With continued research in genetics,
couples will have the opportunity to become aware of a greater number of
medical conditions that may affect their child and can make the proper
adjustments needed in advance. Lastly, and perhaps the most important
advancement in the curing and treating of illnesses, geneticists are developing
a new method for removing viruses from human bodies—DNA scissors. This new
method works in a similar way that antibiotics does. When antibodies enter our
internal system they attack a specific type of enemy cell or virus and destroy
it. Likewise, DNA scissors enter the body and attack a specific type of enemy
virus or cell. DNA scissors are much more effective than conventional
antibiotics because they enter the enemy cell and unravel their DNA. With
dysfunctional DNA, a cell is a pile of lipids and proteins; cancerous tumors
will turn to harmless dumps of organic material that can be filtered out by
the body. DNA scissors will affect things that antibiotics cannot, like AIDS.
(Not even AIDS can function without DNA).
One day the only thing that will stand
between medical diseases and their cure will be the analysis of their DNA.
Genetics now offers a new way to solve the general problems of the world. First, genetic research makes it possible for food to be grown safer, better, and
faster, without doing any damage to the environment. With today’s knowledge of
genetic engineering, several food companies are investigating possibilities of
making more food in less time. Through a process know as gene therapy,
The Essay on Recombinant dna technology
Recombinant DNA technology refers to the ability to isolate specific DNA sequences and alter or manipulate them to produce desired effects. More often, recombinant DNA technology is referred to as biotechnology. Recombinant DNA technology is fascinating in that it has developed into a multi-billion dollar industry, and completely revolutionized agriculture and pharmaceutical industries, all ...
geneticists have the ability to modify parts of genetic material in organisms.
Geneticists can add attributes to crops, like tomatoes, that would make them
resistant to insects. With such features, dangerous chemicals like DDT that harm
the environment, plants, animals, and humans would not be needed. Other
enhancements would include prolonged life spans for food products after
harvesting. For example, tomatoes have been engineered to last longer so they
do not have to be harvested early. Thus, it is unnecessary to spray chemicals on
them to prematurely change their color. While the US has not yet approved the
new crops, several countries have and are making great profits off them. Finally,
through a process known as gene splicing, geneticists are able to cross
different organisms and therefore breed beneficial life forms. The Supreme Court
ruled that scientists can patent newly created life forms, so several companies
have invested in genetic research. General Electric provided the funding for a
team of geneticists to create a new life form; the result was oil eating
bacteria. The bacteria consume oil and are of no threat to the environment, so
far. A major use for the bacteria is to clean shores after an oil spill. It is
impossible to clean every drop of oil on the shoreline, so the bacteria are
released to remove any traces of oil tediously and perfectly. General Electric
is in the process of obtaining, or already has obtained a patent for the
bacteria. It is quite clear that genetics will have an active role in our quest
for solving world problems.
Genetic Engineering makes it possible to treat and correct bodily malfunctions. First, the use of genetics allows us to produce supplements for those who have chemical deficiencies. The most well known example of such a supplement is insulin. In the 1800’s, diabetics received insulin from sheep, yet as it can be imagined, it took a great deal of sheep to sustain one person. After the
discovery of DNA, geneticists used gene splicing to develop a bacterium to
produce insulin. By cloning the human gene for insulin and inserting it into
The Term Paper on Genetic Engenring People Life Human
The Biological Revolution The year is 2025, parents can now ensure that their children will not be prone to addictions, mental illness and are even resistant to AIDS. Diseases are considered a burden of previous generations. Even the process of aging can be manipulated to suit man. No longer will people worry about looking or feeling old. Science has now found a way around the clock. Human genetic ...
bacteria known as E. coli, the scientists created bacteria that produced insulin
and when the bacteria reproduced, they reproduced the human gene as well. Next,
genetic engineering will make it possible to create vital organs for transplants.
A major medical difficulty today is the lack of organ donors. Waiting lists are
always getting longer, and people are losing their lives as a result. In the
future, geneticists would be able to clone pieces of organs and, then, make
organs for surgeries involving transplants. Geneticists may even be able to
clone cells from damaged organs and then engineer exact duplicates. Genetics
will definitely have a large impact on correcting of malfunctions in the human
body.
Without doubt, genetic engineering has already helped make human life easier and will continue to do so in the future, provided that research on genetic engineering continues. All advancements in science have led to positive and
negative results, yet, the rewards of genetics greatly outweigh the disadvantages. Mankind is entering a new era in medicine, genetic engineering, and one that has received criticism. As the field of genetics inevitably becomes integrated with medical practice, people may continue to protest against what they believe genetic engineering will unleash on our society. Rather than allowing fear and ignorance to derail one of the most humane efforts underway, scientists and the society must find bridges of communication and understanding, through education, to promote the benefits of genetic engineering.