AUG: Methionine (start codon for transcription)
AAU: Asparagine
GGC: Glycine
UCG: Serine
AUC: Isoleucine
UGA: Stop codon (this does not encode for an amino acid)
To determine the amino acid sequence from mRNA, one can use the genetic code to translate the sequence of nucleotides in the mRNA into a sequence of amino acids. Each set of three nucleotides, called a codon, corresponds to a specific amino acid. By reading the mRNA sequence in groups of three nucleotides and matching them to the genetic code, one can determine the corresponding amino acid sequence.
DNA sequence undergoes transcription, then translation process in order to determine and subsequently produce the amino acid sequence. The four bases specifically A,C,G, & T are the main coding sequence of a DNA. Because each coding sequence is unique, the resulting amino acid sequence is also unique as well.
To determine the amino acid sequence from DNA, one must first transcribe the DNA into mRNA. Then, the mRNA is translated into a sequence of amino acids using the genetic code. Each set of three nucleotides in the mRNA, called a codon, corresponds to a specific amino acid. By reading the codons in the mRNA, one can determine the amino acid sequence.
R E V or Arginine - Glutamic acid - Valine
The amino acid codon wheel can be used to determine the specific amino acid sequence in a given DNA sequence by matching the DNA codons with their corresponding amino acids on the wheel. Each set of three DNA nucleotides (codon) codes for a specific amino acid, and by using the codon wheel, one can easily identify the amino acid sequence encoded by the DNA.
To determine the amino acid sequence from mRNA, one can use the genetic code to translate the sequence of nucleotides in the mRNA into a sequence of amino acids. Each set of three nucleotides, called a codon, corresponds to a specific amino acid. By reading the mRNA sequence in groups of three nucleotides and matching them to the genetic code, one can determine the corresponding amino acid sequence.
DNA sequence undergoes transcription, then translation process in order to determine and subsequently produce the amino acid sequence. The four bases specifically A,C,G, & T are the main coding sequence of a DNA. Because each coding sequence is unique, the resulting amino acid sequence is also unique as well.
To determine the amino acid sequence from DNA, one must first transcribe the DNA into mRNA. Then, the mRNA is translated into a sequence of amino acids using the genetic code. Each set of three nucleotides in the mRNA, called a codon, corresponds to a specific amino acid. By reading the codons in the mRNA, one can determine the amino acid sequence.
The genes determine the amino sequence and the shape the amino group will be folded into to become a protien.
R E V or Arginine - Glutamic acid - Valine
The amino acid codon wheel can be used to determine the specific amino acid sequence in a given DNA sequence by matching the DNA codons with their corresponding amino acids on the wheel. Each set of three DNA nucleotides (codon) codes for a specific amino acid, and by using the codon wheel, one can easily identify the amino acid sequence encoded by the DNA.
The DNA sequence will determine the amino acid sequence known as the protein's primary structure. As the protein is folded into the secondary, tertiary and quatranary structures, the amino acid molecules will determine the shape
mRNA has the codon sequence that exactly correspond to the amino acid sequence. The DNA has two strands. Though one of the strands (coding strand) carries the same information as on the mRNA, it contains unspliced introns that will mess up the amino acid sequence.
The DNA sequence will determine the amino acid sequence known as the protein's primary structure. As the protein is folded into the secondary, tertiary and quatranary structures, the amino acid molecules will determine the shape
The amino acid sequence of gcgatatcg cannot be determined directly because it is a DNA sequence. In order to determine the amino acid sequence, the DNA sequence first needs to be transcribed into mRNA and then translated into a protein using the genetic code. Each set of three nucleotides (codon) corresponds to a specific amino acid.
a silent mutation.
Yes. GCT ACG AAU All codons represent one amino acid except uracil will be substituted for thymine in the mRNA.