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17. The table shows a few messenger RNA codons.

Codons for Messenger RNA

\begin{tabular}{|c|c|c|c|c|c|}
\hline
\multirow{2}{}{\begin{tabular}{l}
First \\
Base
\end{tabular}} & \multicolumn{4}{|c|}{ Second Base } & \multirow{2}{}{\begin{tabular}{l}
Third \\
Base
\end{tabular}} \\
\hline
& [tex]$U$[/tex] & C & A & G & \\
\hline
\multirow{4}{*}{[tex]$U$[/tex]} & UUU Phenylalanine & UCU Serine & UAU Tyrosine & UGU Cysteine & [tex]$U$[/tex] \\
\hline
& UUC Phenylalanine & UCC Serine & UAC Tyrosine & UGC Cysteine & C \\
\hline
& UUA Leucine & UCA Serine & UAA Stop & UGA Stop & A \\
\hline
& UUG Leucine & UCG Serine & UAG Stop & UGG Tryptophan & [tex]$G$[/tex] \\
\hline
\end{tabular}

Which point mutation would result in the formation of a new protein?

A. UCA to UCG

B. UAA to UAG

C. UGU to UGC

D. UUU to UUA

Sagot :

GinnyAnsweridn
To determine which point mutation would result in the formation of a new protein, we need to compare the original and mutated codons to see if the amino acid they code for has changed. Let's analyze each provided mutation:

1. UCA to UCG:
- Original Codon: UCA (Serine)
- Mutated Codon: UCG (Serine)
- Both UCA and UCG code for Serine. Therefore, this is a synonymous mutation, which does not change the protein.

2. UAA to UAG:
- Original Codon: UAA (Stop)
- Mutated Codon: UAG (Stop)
- Both UAA and UAG are stop codons. Therefore, this is also a synonymous mutation, which does not produce a new protein.

3. UGU to UGC:
- Original Codon: UGU (Cysteine)
- Mutated Codon: UGC (Cysteine)
- Both UGU and UGC code for Cysteine. Hence, this is another synonymous mutation, resulting in no new protein.

4. UUU to UUA:
- Original Codon: UUU (Phenylalanine)
- Mutated Codon: UUA (Leucine)
- UUU codes for Phenylalanine, while UUA codes for Leucine. This is a non-synonymous mutation since the amino acid changes from Phenylalanine to Leucine, resulting in the formation of a new protein.

Thus, the point mutation that results in the formation of a new protein is:

UUU to UUA

So the answer is:

4
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