Anti-Codons
The term for a sequence of three nucleotides that code for an amino acid in DNA is called a codon.
None! The reason is: there are no nucleotides in proteins. Nucleotides are the monomers (building blocks) of nucleic acids. The monomers of proteins are amino acids. The relationship between nucleotides and amino acids is the genetic code. In brief, the genetic code works like this: within a region of DNA that codes for a polypeptide chain (from which a protein will be made) a group of three adjacent nucleotides code for one amino acid.
A sequence of nucleotides follows the genetic code, which is a set of rules that specifies how the information in DNA is translated into proteins. The genetic code uses a three-letter code called codons to represent each amino acid in a protein. This sequence of nucleotides is read in groups of three to produce the corresponding amino acid during protein synthesis.
The DNA code consists of specific sequences of DNA nucleotides that code for specific amino acids. A sequence of three nucleotides are called a codon, and code for one specific amino acid. The sequence of amino acids determines the structure and function of the proteins, which determine the cells' activities and hereditary traits.
A codon is a set of three nucleotides that specifies which amino acid will be added to the growing protein during translationl. Since a codon is found in DNA and RNA, the NUCLEOTIDE BASESare the molecules that make up codons
The term for a sequence of three nucleotides that code for an amino acid in DNA is called a codon.
Because for the purpose of translation into aminoacids, each codon is three nucleotides long. In other words peptides which are the building blocks of proteins get made by translating three nucleotides at a time.
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DNA nucleotides 'code' for RNA copies of the DNA strand, but the true 'coding' of nucleotides happen in the ribosome where amino acids are matched to the RNA nucleotides. Nucleotides in DNA are only are present to store genetic data. When a particular gene needs to be used or a protein needs to be made, a RNA copy of the DNA will be made, using the slightly different RNA nucleotides (adenine, uracil, cytosine and guanine). This copy then leaves the nucleus and travels to the ribosome, where the RNA nucleotides are used to assemble amino acids into proteins. Each amino acid matches up to a three-nucleotide sequence.
None! The reason is: there are no nucleotides in proteins. Nucleotides are the monomers (building blocks) of nucleic acids. The monomers of proteins are amino acids. The relationship between nucleotides and amino acids is the genetic code. In brief, the genetic code works like this: within a region of DNA that codes for a polypeptide chain (from which a protein will be made) a group of three adjacent nucleotides code for one amino acid.
A sequence of nucleotides follows the genetic code, which is a set of rules that specifies how the information in DNA is translated into proteins. The genetic code uses a three-letter code called codons to represent each amino acid in a protein. This sequence of nucleotides is read in groups of three to produce the corresponding amino acid during protein synthesis.
The three-base sequence on a tRNA molecule is known as an anti-codon. This matches up with the codon (another 3-base code) on the mRNA to ensure that the correct amino acid is added to the chain (protein) being created.
The DNA code consists of specific sequences of DNA nucleotides that code for specific amino acids. A sequence of three nucleotides are called a codon, and code for one specific amino acid. The sequence of amino acids determines the structure and function of the proteins, which determine the cells' activities and hereditary traits.
Yes, DNA contains codons, which are sequences of three nucleotides that encode for specific amino acids during protein synthesis. These codons are read by ribosomes and transfer RNA molecules to assemble the corresponding amino acids in the correct order to form proteins.
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A codon is a set of three nucleotides that specifies which amino acid will be added to the growing protein during translationl. Since a codon is found in DNA and RNA, the NUCLEOTIDE BASESare the molecules that make up codons
A sequence of three nucleotides in a DNA molecule is called a codon. Each codon codes for a specific amino acid or a signaling function in protein synthesis.