A part of an mRNA molecule with the following sequence is being read by a ribosome: 5'- CCG-ACG -3'. The following charged tRNA molecules are available. Two of them can correctly match the mRNA so that a dipeptide can form. tRNA Anticodon Amino Acid 3'- GGC -5' proline 3'- CGU -5' alanine 3'- UGC -5' threonine 3'- CCG -5' glycine 3'- ACG -5' cysteine 3'- CGG -5' alanine The dipeptide that will form will be ________.

The two anticodons that can fit in are 3'-GGC-5' (Proline) and 3'-UGC-5'(Threonine). The forming peptide is known as Pro-Thr. IUPAC refers as "Prolylthreonine"

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Martebi Martebi · Answer 2 · 2021-11-09T20:36:14+01:00

The dipeptides that will be formed is Proline-Threonine.

5'-CCG-ACG-3' (mRNA) will lead to stop codon of Proline-Threonine

The genetic code is known as a system of some base sequences that specify amino acids which are used for the synthesis of a protein during translation.

The code consist of codons which has a triplet of bases and specify a specific amino acid.

There are 64 codon sequences, of which sixty-one specify amino acids and three direct the termination of translation.

The Codons that specify the same amino acid are regarded as synonyms.

Conclusively, The three codons, UAA, UAG and UGA are refered to as stop or nonsense codons and they direct the termination of translation.

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