The neutral mutation does not change the amino acid coded for by the codon. A good example is the RNA codon that could be the CCA, CCC or the CCG.
The amino acid coded for by the original sequence can be determined based on the codon table. The sequence is comprised of sets of three nucleotides that correspond to specific amino acids, so you would need to convert the sequence into codons and then use the table to identify the amino acid coded for by those codons.
If only one amino acid is coded incorrectly in a protein sequence, it may result in a missense mutation. This could potentially lead to a change in the structure and function of the protein. The impact of the mutation would depend on the specific amino acid involved and its location within the protein.
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A mutation can change a codon for one amino acid into a different codon for the same amino acid through a process called silent mutation. This type of mutation occurs when a change in the DNA sequence does not alter the amino acid that is coded for, resulting in the same protein being produced.
The RNA sequence CUA codes for the amino acid leucine.
During a substitution mutation, a single nucleotide in the DNA sequence is replaced with a different nucleotide. This can lead to a change in the amino acid that is coded for, potentially altering the protein that is produced. The impact on the genetic code depends on whether the substitution results in a silent mutation (no change in the amino acid) or a missense mutation (change in the amino acid), which can affect the function of the protein.
Yes, an amino acid can be coded for by more than one sequence of three nucleotides. This is due to the degeneracy of the genetic code, where some amino acids are encoded by multiple codons.
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In a point mutation, a change in a single nucleotide can lead to a specific mutation. For example, a substitution mutation occurs when one nucleotide is swapped for another, such as A to T or C to G. This change can result in different amino acids being coded for in the protein sequence.
To determine how many amino acids are coded for in the segment 5' atcagcgctggc 3', we first need to convert the DNA sequence into its corresponding mRNA sequence. The mRNA sequence would be 5' UAG UCG CUG CCG 3'. Each amino acid is coded for by a codon, which consists of three nucleotides. Therefore, this mRNA sequence contains four codons, coding for four amino acids.
The bases of mRNA coded for by a DNA segment are complementary to the original DNA sequence. If the DNA sequences are ATCG, the corresponding mRNA bases will be UAGC.
To determine the first four amino acids coded by a given DNA or RNA sequence, you need to translate the corresponding codons from the nucleotide sequence. Each codon consists of three nucleotides and translates to a specific amino acid based on the genetic code. Without the actual sequence provided, I cannot identify the specific amino acids. Please provide the sequence for an accurate translation.