Genetic code represents a string encoded information or directions to start or to stop The translation process (translation) protein. Code consists of nucleotide bases of DNA, which defines the structure and function of the body in general. Here bases listed the gene translated into strings of amino acids (protein structure). The translation system encoding of a sequence of nucleotides (RNA-i) in the range of amino acids (protein) uses a code consisting of three bases called-encoding (64 species are known to codons). Fundamentals dictate a collection of amino acids with fixed rule for the synthesis of a polypeptide chain speciñk. Sixty (60) of the sixty-four (64) codons, code for specific amino acids, while three of them serve as signs of the stop (stop), or as stop codons (nonsense codon) as UAA, UGA and UAG, who are required to complete The translation of that they act as the ultimate outcome of the sentence. This is the time when RNA-r releases performed polypeptide chain protein. We have also an AUG, for initiating universal code, which serves as a signal to start, coding for the amino acid methionine to eukaryotic cells. Initiator code marks the place in RNA (m-RNA) where to begin translation. So, the message (information) starts and makes the correct reading the news (information). It is known that more than one codon (triplet pairs) can be speci fi ed as an amino acid phenylalanine amino acid p.sh, coded by UCC and uuu bases, while the amino acid tyrosine specify by DNA sequencing -That ATG and ATA.
For amino acids that have more than one code, the first two code bases (Triplett) are the same, while the third base position may be different.
