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Реферат на тему DNA Essay Research Paper DNADeoxyribonucleic acid and

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DNA Essay, Research Paper

DNA

Deoxyribonucleic acid and ribonucleic acid are two chemical substances involved

in transmitting genetic information from parent to offspring. It was known early

into the 20th century that chromosomes, the genetic material of cells, contained

DNA. In 1944, Oswald T. Avery, Colin M. MacLeod, and Maclyn McCarty concluded

that DNA was the basic genetic component of chromosomes. Later, RNA would be

proven to regulate protein synthesis. (Miller, 139)

DNA is the genetic material found in most viruses and in all cellular organisms.

Some viruses do not have DNA, but contain RNA instead. Depending on the organism,

most DNA is found within a single chromosome like bacteria, or in several

chromosomes like most other living things. (Heath, 110) DNA can also be found

outside of chromosomes. It can be found in cell organelles such as plasmids in

bacteria, also in chloroplasts in plants, and mitochondria in plants and animals.

All DNA molecules contain a set of linked units called nucleotides. Each

nucleotide is composed of three things. The first is a sugar called deoxyribose.

Attached to one end of the sugar is a phosphate group, and at the other is one

of several nitrogenous bases. DNA contains four nitrogenous bases. The first two,

adenine and guanine, are double-ringed purine compounds. The others, cytosine

and thymine, are single-ringed pyrimidine compounds. (Miller, 141) Four types of

DNA nucleotides can be formed, depending on which nitrogenous base is involved.

The phosphate group of each nucleotide bonds with a carbon from the deoxyribose.

This forms what is called a polynucleotide chain. James D. Watson and Francis

Crick proved that most DNA consists of two polynucleotide chains that are

twisted together into a coil, forming a double helix. Watson and Crick also

discovered that in a double helix, the pairing between bases of the two chains

is highly specific. Adenine is always linked to thymine by two hydrogen bonds,

and guanine is always linked to cytosine by three hydrogen bonds. This is known

as base pairing. (Miller, 143)

The DNA of an organism provides two main functions. The first function is to

provide for protein synthesis, allowing growth and development of the organism.

The second function is to give all of it?s descendants it?s own protein-

synthesizing information by replicating itself and providing each offspring with

a copy. The information within the bases of DNA is called the genetic code. This

specifies the sequence of amino acids in a protein. (Grolier Encyclopedia, 1992)

DNA does not act directly in the process of protein synthesis because it does

not leave the nucleus, so a special ribonucleic acid is used as a messenger

(mRNA). The mRNA carries the genetic information from the DNA in the nucleus out

to the ribosomes in the cytoplasm during transcription. (Miller, 76)

This leads to the topic of replication. When DNA replicates, the two strands of

the double helix separate from one another. While the strands separate, each

nitrogenous base on each strand attracts it?s own complement, which as mentioned

earlier, attaches with hydrogen bonds. As the bases are bonded an enzyme called

DNA polymerase combines the phosphate of one nucleotide to the deoxyribose of

the opposite nucleotide.

This forms a new polynucleotide chain. The new DNA strand stays attached to the

old one through the hydrogen bonds, and together they form a new DNA double

helix molecule. (Heath, 119) (Miller, 144-145)

As mentioned before, DNA molecules are involved in a process called protein

synthesis. Without RNA, this process could not be completed. RNA is the genetic

material of some viruses. RNA molecules are like DNA. They have a long chain of

macromolecules made up of nucleotides. Each RNA nucleotide is also made up of

three basic parts. There is a sugar called ribose, and at one end of the sugar

is the phosphate group, and at the other end is one of several nitrogenous bases.

There are four main nitrogenous bases found in RNA. There are the double-ringed

purine compounds adenine and guanine, and there is the single-ringed pyrimidine

compounds of uracil and cytosine. (Miller, 146)

RNA replication is much like that of DNA?s. In RNA synthesis, the molecule being

copied is one of the two strands of a DNA molecule. So, the molecule being

created is different from the molecule being copied. This is known as

transcription. Transcription can be described as a process where information is

transferred from DNA to RNA. All of this must happen so that messenger RNA can

be created, the actual DNA cannot leave the nucleus. (Grolier Encyclopedia,

1992)

For transcription to take place, the RNA polymerase enzyme is needed first

separate the two strands of the double helix, and then create an mRNA strand,

the messenger. The newly formed mRNA will be a duplicate of one of the original

two strands. This is assured through base pairing. (Miller, 147)

When information is given from DNA to RNA, it comes coded. The origin of the

code is directly related to the way the four nitrogenous bases are arranged in

the DNA. It is important that DNA and RNA control protein synthesis. Proteins

control both the cell?s movement and it?s structure. Proteins also direct

production of lipids, carbohydrates, and nucleotides. DNA and RNA do not

actually produce these proteins, but tell the cell what to make. (Heath, 111-

113)

For a cell to build a protein according to the DNA?s request, a mRNA must first

reach a ribosome. After this has occurred, translation can begin to take place.

Chains of amino acids are constructed according to the information which has

been carried by the mRNA. The ribosomes are able to translate the mRNA?s

information into a specific protein. (Heath, 116) This process is also dependent

on another type of RNA called transfer RNA (tRNA). Cytoplasm contains all amino

acids needed for protein construction. The tRNA must bring the correct amino

acids to the mRNA so they can be aligned in the right order by the ribosomes.

(Heath, 116) For protein synthesis to begin, the two parts of a ribosome must

secure itself to a mRNA molecule. (Miller, 151)

Methods and Materials:

For the first part of the lab, colored paper clips were needed to construct two

DNA strands. Each color paper clip represented one of the four nitrogenous bases.

Black was used as adenine, white was thymine, blue was cytosine, and yellow

represented guanine. A short sequence of the human gene that controls the body?s

growth hormone was then constructed using ten paper clips. The complementary

strand of the gene was then made using ten more clips. The two model strands

were laid side by side to show how the bases would bond with each other. The

model molecule was then opened and more nucleotides were added to show what

happens during replication.

For the second part of the lab, models of DNA, mRNA, tRNA, and amino acids were

used to simulate transcription, translation, and protein synthesis. The model

molecules were cut out with scissors and placed on the table. The DNA and mRNA

molecules were put on the left side of the table, the others on the right. To

simulate transcription, the mRNA molecule was slid down the DNA strand until the

nucleotides matched. The mRNA molecule was then moved from the left side of the

table to the right, showing it?s movement from the nucleus to the cytoplasm. The

tRNA molecules were then matched up with an amino acid. Once matched up, they

were slid along the mRNA until their nucleotides matched.

Conclusions:

The most surprising discovery made was finding out that there are only four main

bases needed in a DNA and RNA molecule. Also, each of these bases will only bond

with one other base. It is important to realize how DNA greatly affects a cell?s

functions, in growth, movement, protein building, and many other duties. DNA is

not nearly complex in structure as I had thought either. Containing only it?s

three main parts of a sugar, phosphate, and of course it?s base. From these

studies it is easy to see how DNA and RNA greatly affect the life and functions

of an organism.

Bibliography:

Emmel, Thomas C. Biology Today. Chicago: Holt, Rinehart and Winston, 1991.

Foresman, Scott. Biology. Oakland, New Jersey: Scott Foresman and Company, 1988.

Hole, John W., Jr. Essentials. Dubuque, Iowa: Wm. C. Brown Company Publishers,

1983.

Mader, Sylvia S. Inquiry Into Life. New York: Wm. C. Brown Company Publishers,

1988.

McLaren, Rotundo. Heath Biology. New York: Heath Publishing, 1987.

Miller, Kenneth R. Biology. New Jersey: Prentice Hall, 1993.

Welch, Claude A. Biological Science. Boston: Houghton Mifflin Company, 1968.


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