Eventually, in a real gene, you'll get to a stop codon that doesn't encode an amino acid, it's just a signal for the translation to stop. These are UAA, UAG and UGA.
DNA is the master molecule of the cell. It contains all the codes for all the proteins in an organism (genes). Proteins are made up of amino acids. Therefore, if the protein's amino acid sequences in organisms are similar, then they would have to have similar DNA sequences to produce these proteins. BIOLOGY TEACHER
Answers & Comments
Verified answer
There's a table here:
http://en.wikipedia.org/wiki/Codon#RNA_codon_table
Just look up each codon (set of three nucleotides), and find the corresponding amino acid.
The sequence you put above is:
Methionine (start) - Isoleucine - Histidine - Glutamate.
Eventually, in a real gene, you'll get to a stop codon that doesn't encode an amino acid, it's just a signal for the translation to stop. These are UAA, UAG and UGA.
DNA is the master molecule of the cell. It contains all the codes for all the proteins in an organism (genes). Proteins are made up of amino acids. Therefore, if the protein's amino acid sequences in organisms are similar, then they would have to have similar DNA sequences to produce these proteins. BIOLOGY TEACHER
AUG is the start codon so thats a methianine, continue to read in sets of 3 to get your sequence until a stop codon appears