stion 9 of 23 Sapling Learning Using the codon table below, what conclusions can
ID: 188138 • Letter: S
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stion 9 of 23 Sapling Learning Using the codon table below, what conclusions can be drawn about the genetic code? Second Position Tyrosine Cysteineu Phenylalanine Serine Phenylalanine | Serine Leucine SerineHistidineArginine A Leucine Tyrosine Cysteine Stop Stop TryptophanG Arginine C Proline Histidine ArginineG Proline Isoleucine Threonine Asparagine Serine A Isoleucine Threonine Asparagine Serine Isoleucine Threonine Lysine Arginine Lysine Alanine Aspartic acid Glycine Glutamic acid Glycine Glutamic acid GlycineG G Valine Valine Many amino acids are encoded by multiple codons. The sequence 5' AUGAGAUCGUGA 3' contains ten overlapping codons. There are three codons that specify the end of translation. The 64 codons are roughly evenly distributed between amino acid codons and stop codo Previous OCheckAnswer Hint about us careers privacy policy terms of use contact usExplanation / Answer
1.Many amino acids are encoded by multiple codons .
2.There are three codons that specify end of translation.
Many amino acids in genetic code are encoded by multiple codons. This is referred as degeneracy of genetic code. Degeneracy of genetic code means that amino acids may be specified by more than one codon. Only tryptophan and methionine are encoded by a single codon. Other amino acids are specified by two codons, and some, such as leucine, are specified by six different codons.
Three codons specify end of translation. They are called as stop codons. They are UAA, UAG,UGA .
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