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DNA
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RNA
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Deoxyribonucleic Acid
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Ribonucleic Acid
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DNA replicates and stores genetic
information. It is a blueprint for all genetic information contained within
an organism
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RNA converts the genetic
information contained within DNA to a format used to build proteins, and then
moves it to ribosomal protein factories.
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DNA consists of two strands,
arranged in a double helix. These strands are made up of subunits called
nucleotides. Each nucleotide contains a phosphate, a 5-carbon sugar molecule
and a nitrogenous base.
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RNA only has one strand, but like
DNA, is made up of nucleotides. RNA strands are shorter than DNA strands. RNA
sometimes forms a secondary double helix structure, but only
intermittently.
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DNA is a much longer polymer than
RNA. A chromosome, for example, is a single, long DNA molecule, which would
be several centimetres in length when unravelled.
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RNA molecules are variable in
length, but much shorter than long DNA polymers. A large RNA molecule might
only be a few thousand base pairs long.
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The sugar in DNA is deoxyribose,
which contains one less hydroxyl group than RNA’s ribose.
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RNA contains ribose sugar
molecules, without the hydroxyl modifications of deoxyribose.
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The bases in DNA are Adenine (‘A’),
Thymine (‘T’), Guanine (‘G’) and Cytosine (‘C’).
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RNA shares Adenine (‘A’), Guanine
(‘G’) and Cytosine (‘C’) with DNA, but contains Uracil (‘U’) rather than
Thymine.
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Adenine and Thymine pair (A-T)
Cytosine and Guanine pair
(C-G)
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Adenine and Uracil pair (A-U)
Cytosine and Guanine pair
(C-G)
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DNA is found in the nucleus, with a
small amount of DNA also present in mitochondria.
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RNA forms in the nucleolus, and
then moves to specialised regions of the cytoplasm depending on the type of
RNA formed.
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Due to its deoxyribose sugar, which
contains one less oxygen-containing hydroxyl group, DNA is a more stable
molecule than RNA, which is useful for a molecule which has the task of
keeping genetic information safe.
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RNA, containing a ribose sugar, is
more reactive than DNA and is not stable in alkaline conditions. RNA’s larger
helical grooves mean it is more easily subject to attack by enzymes.
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DNA is vulnerable to damage by
ultraviolet light.
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RNA is more resistant to damage
from UV light than DNA.
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