Amino Acids determine the shape and function of a protein.
The specific shape of a protein, known as its tertiary structure, determines its function.
The primary structure of a protein refers to the linear sequence of amino acids in the polypeptide chain. It is the simplest level of protein structure that ultimately determines the overall shape, function, and properties of the protein.
This could be answered a few ways, but at the most specific, it is the codons that are translated via tRNA which make a protein. Each codon, represented by 3 nucleotides, "codes" for an amino acid. A string of amino acids make a protein, thus the nucleotides in the codons determines the product. To get to this point, requires transcription from DNA into mRNA and then mRNA is translated into the amino acids, so you could say that DNA itself determines the protein produced; however, it is actually the codons in the mRNA that are used to make the protein. The section of DNA that is transcribed is called a gene, so you could also say that it is the gene that determines what is produced.
Protein confirmation is determined by its primary structure (sequence of amino acids) and interactions between amino acid side chains. This arrangement dictates the folding of the protein into its specific 3D shape, which is crucial for its function. A protein's conformation is important because it influences how the protein interacts with other molecules and ultimately determines its biological activity.
The order determines the amino acid sequence in proteins. Think of nucleotide as a building block of DNA. Nucleotides are made of a sugar, a phosphate group and one of four bases (adenine, Guanine, Thymine and Cytosine).
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.
The chain structure of a protein determines its function. The sequence of amino acids in the protein chain ultimately determines how the protein will fold into its specific three-dimensional shape, which is critical for its functional properties. Additionally, the chain allows the protein to interact with other molecules in the body and carry out its specific biological roles.
The specific shape of a protein, known as its tertiary structure, determines its function.
DNA determines the sequence of the amino acids (building blocks) in a protein. The sequence of nitrogen bases in the DNA determines the sequence of amino acids in a protein.
The primary structure of a protein refers to the linear sequence of amino acids in the polypeptide chain. It is the simplest level of protein structure that ultimately determines the overall shape, function, and properties of the protein.
It determines the sequence of amino acids in a protein.
The sequence in which amino acids are linked together determines the unique three-dimensional structure of a protein, which in turn dictates its physical properties like shape, size, and stability. Altering the sequence can lead to changes in protein function or stability. Even a single amino acid substitution can have significant effects on a protein's structure and function.
Temperature
A protein molecule is a long chain of amino acids. There are 22 different amino acids and their chemical properties determine the shape of the protein which determines the function of the protein.
The unique chemical properties of each element depend on the atomic number. The protein composition of a cell determines its shape, behavior, and function of the cell.
Conformation is what determines a protein's unique set of functional and otherwise shapes.
DNA determines a protein's shape by determining the sequence of the amino acids in a protein.