The sequence of amino acids is determined by the mRNA transcript. By knowing what codon codes for each amino acid the RNA sequence can then be determined. From that the DNA sequence can be derived.
One method to determine a proteins amino acid sequence (primary structure) is the Edman degradation process. This method involves 3 steps:
Look up "The dictionary of the genetic code"
Sequencing the gene is an easy way to go now days. The triplet code is read for the amino acids and promoters to terminators of genes are easily identified these days.
chemical structure/particular code-like AUG--
Base sequence in DNA.
The sequence of amino acids affects protein function. The three-dimensional structure of a protein determines its function. The three-dimensional structure of a protein is determined by the sequence of its amino acids.
the order of its amino acids
amino acids form protein.
Primary structure of the protein is simply its amino acid sequence. It is the sequence in which amino acids are added during protein synthesis.
Primary structure.
The order of amino acids in a protein determines its structure and function.
The sequence of amino acids affects protein function. The three-dimensional structure of a protein determines its function. The three-dimensional structure of a protein is determined by the sequence of its amino acids.
the order of its amino acids
The order of amino acids can affect the protein's shape.
amino acids form protein.
Amino acids.
DNA molecules form amino acids. Amino acids are bonded together by peptide bonds. This chain on amino acids and peptide bonds form the structure for protein.
Primary structure of the protein is simply its amino acid sequence. It is the sequence in which amino acids are added during protein synthesis.
amino acid are the building block of proteins. Polypeptide are chains that bond amino acids to form protein structure
primary structure
Proteins are long chains of amino acids. The sequence of amino acids that make up a specific protein is its primary structure. Many proteins have secondary structure that is caused by interactions between associated amino acids, causing kinks or twists in the protein change. Some have tertiary structure, which is caused by joining together of one or more chains.
The sequence of amino acids determines the specific function of a protein. The shape and structure of the protein determines where in the cell it can go.