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Genetic Code Explained in 40 Characters
1. GENETIC CODE
Jigar V. Patel
Lecturer
Department of Zoology
Government Science Collage, Vankal
Ta. Mangrol, Di. Surat-394430
Email. pateljigar1818@gmail.com
2. Genetic code is defined as the sequence of nitrogen bases
(nucleotides) in mRNA molecule which contains the
information for the synthesis of protein molecules.
A codon is defined as the sequence of three nitrogen bases
(nucleotides) in mRNA which codes for a single amino acid.
Nirenberg and Mathaei ( 1961 ) experimentally proved that a
single amino acid is determined by a sequence of three nitrogen
bases. The sequence of three nitrogen bases determining a
single amino acid is called a.
triplet code
The genetic code has the following characteristics:
3. 1. Triplet
A single amino acid is specified by a set of three nucleotides in
the mRNA. This is called a codon. Hence, a codon is a triplet.
4. 2. Universal
Genetic code is universal in nature. One type of code
determines the same amino acid in all organisms including
viruses, bacteria, plants and animals.
3. Colinearity
The codons in mRNA and the amino acids in polypeptide
chains have a linear arrangement.
5. 4. Commaless
There is no comma or punctuation between the adjacent
Codons. That is, each codon is immediately followed by the
next codon without any spaces in between.
6. 5. Non-overlapping
Recent discoveries show that codons are non-overlapping.
Hence each letter is read only once.
7. 6. Polarity
The code has a direction or polarity. It is read in only one
direction. Usually it is read from the S(5prime) end of mRNA.
7. Initiation Codon
The synthesis o/a polypeptide chain is initiated by a codon
called initiation codon. It is located in the beginning of a
cistron (gene). The initiation codon is constant in most cases. It
is AUG and it codes for the amino acid methionine.
8. Termination Codon
The synthesis o/a polypeptide chain is completed by a codon
called termination codon. It is located at the end of a cistron.
The termination codon may be UAA, UGA or UAG.
8. The termination codon does not code for any amino acid.
Hence it is also called nonsense codon.
The codon which does not code for any amino acid is called a
non-sense codon. There is no tRNA anti-codon for non-sense
codon. So they are not read by tRNA. But they are recognized
by release factors (RE).
9. 9. Codons and Anticodons
The codons of mRNA can base pair with complementary
codons of tRNA. The codon of tRNA is called anti-codon. In
base pairing, the base A pairs with U and G with C.
The codon in the mRNA is read from the 5/(5 prime end). So
the codon AUG, may be .written as 5/ AUG 3. The
corresponding anti-codon in the tRNA may be written as 5/
UAC Y. This means that the first base will be at the 5/ end in
both codon and anti-codon.
10. Degeneracy
A single amino acid may be specified by many codons. This is
called degeneracy. Such codons are called degenerate codons.
For example, phenylalanine has two codons such as UUU and
CUC. Alanine has four codons such as GCU, GCC, GCA and
GCG.
10. 11. Wobble Hypothesis
Wobble hypothesis was proposed by Crick in 1965. It explains
the property of anti-codons. According to this hypothesis. The
base can pair with the complementary base and also with a
non-complementary base. The first two bases of anti-codon in
the tRNA are specific in recognizing the codon in the mRNA
and the third base of anti-codon is less specific in recognizing
that codon. This non-specific third base is called wobble base.
The unusual base pairing of the wobble base is called wobble
pairing.
11. For example, the anti-codon UCG of serine tRNA recognize
the codon A GC in the mRNA. Here the third base G of tRNA
pairs with C of mRNA. G-C pairing is the normal base pairing.
The anti-codon can also pair with another codon CCU. Here
the third base G of tRNA pairs with U of mRNA. The G-U is
an unusual pairing and it is called wobble base-pairing.
Wobbliness of the third base helps the tRNA to carry more than
one amino acid.
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13. ThankYou
Watson-crick
Base pairing:-
A base pairing is
a fundamental
unit of double-
stranded nucleic
acids consisting
of two nucleo
bases bound to
each other by
hydrogen bonds.