DNA: The Thread of Life


The "thread of life", is deoxyribonucleic acid, otherwise known as DNA.
It is the spiral shaped molecule found in the nucleus of cells. Scientists have
known since 1952 that DNA is the basic substance of heredity. This was
hypothesized, and later confirmed by James D. Watson and Francis Crick. They
also know that it acts like a biological computer program over 3 billion bits
long that "spells" out instructions for making the basic building blocks of life.

DNA carries the bodies genetic code, controls the development of an embryo,
is capable of duplicating itself, and is able to repair damage to itself. DNA
can be manipulated to change all kinds of things.
All DNA molecules consist of a linked series of unites called
nucleotides. Each DNA nucleotide is composed of 3 subunits: a 5 carbon sugar
called deoxyribose, a phosphate group that is joined to one end of the sugar
molecule, and one of several different nitrogenous bases linked to the opposite
end of the deoxyribose. There are 4 nitrogen bases called adenine, guanine,
thymine, and cytosine. In DNA adenine pairs with thymine and guanine with
cytosine.
Medicine\'s ability to diagnose continues to exceed its ability to treat
or cure. For example, Huntington\'s Chorea is an inherited disease that develops
between the ages of 30 and 45, can be diagnosed before any symptoms appear.
This can be hard for both the individuals with the disease and their family.
There is a 3 billion dollar project underway right now called the Human
Genome Project, a 15 year program to make a detailed map of every single gene in
human DNA. With automated cloning equipment to steer scientists through the DNA,
scientists are finding human genes at the rate of more than one a day. This may
not sound like very much but as technology increases the rate at finding them
will increase. Since January 1993 to January 1994 scientists have located the
genes for Huntington\'s disease, Lou Gehrig\'s disease, and the "bubble-boy"
disease. Scientists are expected to find the first breast cancer gene any week
now.
Even with the best tools of today, the progress is full of surprises.
Human DNA is not like that of plants, in which the trait of color of a flower is
determined by one gene. Even the color of a human eye can involve the
interaction of several genes. Some complex genes, such as cystic fibrosis, can
go wrong in any number of places. Scientists have already accounted for 350
places where the cystic fibrosis gene mutates, and more are being uncovered
weekly.
Many environmental factors, some physical, other\'s chemical, can alter
the structure of a DNA molecule. A mutation occurs when such alterations lead
to a permanent change in the base sequence of a DNA molecule. Mutations result
in an inherited change in a protein synthesis. DNA is damaged by exposure to
ultraviolet (UV) light. The DNA does have the ability to repair it self,
however.
DNA can also be used to match suspects in a crime. Each person\'s DNA is
different from everyone else, except in the case of identical twins in which it
is identical. By comparing substances left at a crime scene (blood or semen
samples) law enforcement agencies are able to match the DNA at the crime scene
with a certain suspect. A recent example of this is the O.J. Simpson case, in
which the lawyers are trying to match up O.J.\'s DNA with the DNA in the blood
found at the crime scene.
Many questions have been raised by a number of people and scientists
about the ethics of DNA research. It was once feared that the insertion of a
disease causing substance could cause a deadly epidemic in the general
population upon accidental release. But, since 1973 when they first used the
technique it has been transferred thousands of times without any of the feared
catastrophes occurring. But, still there are many questions remaining to be
answered. Is it right for people to change their babies\' eye color, or any
other aspect of their baby? Should employers be allowed to see your DNA, to see
if you are at risk for a certain disease?

Category: Science