Some codons code for the same amino acid because of redundancy in the genetic code. This redundancy allows for some flexibility and error tolerance in protein synthesis.
Yes, different codons can code for the same amino acid in the genetic code. This redundancy is known as degeneracy in the genetic code.
Yes, multiple codons can code for the same amino acid in the genetic code. This redundancy is known as degeneracy in the genetic code.
During protein synthesis, different codons can code for the same amino acid because of redundancy in the genetic code. This means that multiple codons can specify the same amino acid, allowing for flexibility and error correction in the translation process.
Some codons code for the same amino acid as another codon because of redundancy in the genetic code. This redundancy allows for flexibility and accuracy in protein synthesis, as multiple codons can code for the same amino acid, providing a buffer against errors in DNA replication or transcription.
Yes, multiple codons can code for the same amino acid in the genetic code.
Yes, different codons can code for the same amino acid in the genetic code. This redundancy is known as degeneracy in the genetic code.
Yes, multiple codons can code for the same amino acid in the genetic code. This redundancy is known as degeneracy in the genetic code.
During protein synthesis, different codons can code for the same amino acid because of redundancy in the genetic code. This means that multiple codons can specify the same amino acid, allowing for flexibility and error correction in the translation process.
Some codons code for the same amino acid as another codon because of redundancy in the genetic code. This redundancy allows for flexibility and accuracy in protein synthesis, as multiple codons can code for the same amino acid, providing a buffer against errors in DNA replication or transcription.
Yes, multiple codons can code for the same amino acid in the genetic code.
The code for creating amino acids is said to be redundant because some codons code for the same amino acid (i.e. there is redundancy because several codons have the same function). For example, the RNA codons AAA and AAG both code for the amino acid Lysine. The codons ACU, ACC, ACA and ACG all code for Threonine.
There are 61 codons that specify the twenty types of amino acids, since multiple codons can code for the same amino acid due to the redundancy of the genetic code.
There can be more than one codon that codes for the same amino acid. This is due to the redundancy of the genetic code, where multiple codons can specify the same amino acid.
Yes, multiple codons can code for the same amino acid in the genetic code. This redundancy in the genetic code is known as degeneracy. For example, the amino acid leucine is specified by six different codons: UUA, UUG, CUU, CUC, CUA, and CUG.
During protein synthesis, multiple codons can code for the same amino acid because of redundancy in the genetic code. This means that different combinations of three nucleotides (codons) can still specify the same amino acid. This redundancy allows for flexibility and accuracy in protein synthesis.
No. Amino acids are not always represented by only one codon. Several may code for one amino acid.
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