A gene is a sequence of DNA that contains genetic information and can influence the phenotype of an organism. Within a gene, the sequence of bases along a DNA strand defines a messenger RNA sequence which then defines one or more protein sequences. The relationship between the nucleotide sequences of genes and the amino-acid sequences of proteins is determined by the rules of translation, known collectively as the genetic code. The genetic code consists of three letter words called codons formed from a sequence of three nucleotides (e.g. ACT, CAG, TTT).
In transcription, the codons of a gene are copied into messenger RNA by RNA polymerase. This RNA copy is then decoded by a ribosome that reads the RNA sequence by base-pairing the messenger RNA to transfer RNA, which carries amino acids. Since there are 4 bases in 3 letter combinations there are 64 possible codons (43 combinations). These encode the twenty standard amino acids giving most amino acids more than one possible codon. There are also three stop or nonsense codons signifying the end of the coding region; these are the TAA, TGA and TAG codons.
In transcription, the codons of a gene are copied into messenger RNA by RNA polymerase. This RNA copy is then decoded by a ribosome that reads the RNA sequence by base-pairing the messenger RNA to transfer RNA, which carries amino acids. Since there are 4 bases in 3 letter combinations there are 64 possible codons (43 combinations). These encode the twenty standard amino acids giving most amino acids more than one possible codon. There are also three stop or nonsense codons signifying the end of the coding region; these are the TAA, TGA and TAG codons.