It depends on the length of the mRNA. Because one codon codes for one amino acid and there are three bases to a codon, the number of amino acids that are synthesized into a protein can be determined by taking the number of bases on the mRNA and dividing it by three.
There would be 393 bases on the mRNA strand corresponding to 131 amino acids, as each amino acid is coded for by a sequence of three bases (1 codon). By multiplying the number of amino acids by 3, you can determine the total number of bases required to encode the protein sequence on mRNA.
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.
The order of amino acids in a polypeptide is determined by the sequence of codons in the mRNA. The genetic code determines that specific codons correspond to specific amino acids. The mRNA is read in sets of three nucleotides (codons), each of which codes for an amino acid, resulting in the correct sequence of amino acids in the polypeptide.
If all the nucleotides are protein coding with no control sequences, then 33. Each amino acid is coded for by 3 nucleotide bases. 99 divided by 3 = 33.
Proteins are polymers made up of smaller units called amino acids. Amino acids are linked together in a specific sequence through peptide bonds to form a protein. The sequence of amino acids determines the structure and function of the protein.
ASN, ALA, PHE, ARG.
That strand should have 3 amino acids, because one amino acid is composed of three nucleotide bases.
There would be 393 bases on the mRNA strand corresponding to 131 amino acids, as each amino acid is coded for by a sequence of three bases (1 codon). By multiplying the number of amino acids by 3, you can determine the total number of bases required to encode the protein sequence on mRNA.
it's a genetically coded sequence of amino acids in a polypeptide chain
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.
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.
The order of amino acids in a polypeptide is determined by the sequence of codons in the mRNA. The genetic code determines that specific codons correspond to specific amino acids. The mRNA is read in sets of three nucleotides (codons), each of which codes for an amino acid, resulting in the correct sequence of amino acids in the polypeptide.
If all the nucleotides are protein coding with no control sequences, then 33. Each amino acid is coded for by 3 nucleotide bases. 99 divided by 3 = 33.
Proteins are polymers made up of smaller units called amino acids. Amino acids are linked together in a specific sequence through peptide bonds to form a protein. The sequence of amino acids determines the structure and function of the protein.
The coded message on how to construct a protein is carried in the sequence of nitrogenous bases in a gene within the DNA. This sequence is transcribed into messenger RNA (mRNA), which is then translated into a specific sequence of amino acids based on the genetic code. This sequence of amino acids determines the primary structure of the protein, which then folds into its functional 3D shape.
5, this was a bio question for me at Edison community college.
messenger RNA (mRNA) carries the coded message specifying the sequence of amino acids in the protein from the nucleus to the cytoplasm. It is transcribed from DNA in the nucleus and serves as the template for protein synthesis in the cytoplasm.