The amino acid gives the protein it's 3-dimensional shape
Tertiary Structure.
hydrogen bonds
A 1 dimensional shape is a line.
The net of a 2 dimensional shape can be folded into a 3 dimensional shape
The order of amino acids for each protein determines its final three-dimensional shape
The amino acid gives the protein it's 3-dimensional shape
The specific sequence of amino acids in a protein determines its final shape. This sequence dictates how the protein will fold into its unique three-dimensional structure, which ultimately determines its function. Factors like temperature, pH, and chemical environment can also influence a protein's shape.
Tertiary Structure.....:)
Protein structure is dictated by the sequence of amino acids that make up the protein. The charge and polarity of the amino acid side chains decide the final confirmation (or three dimensional shape) of the protein.
that's theoretical a hyper shape
DNA determines a protein's shape by determining the sequence of the amino acids in a protein.
The final three-dimensional shape of a protein is known as its tertiary structure. This structure is determined by the interactions between amino acid side chains, such as hydrogen bonding, disulfide bonds, hydrophobic interactions, and electrostatic interactions. The tertiary structure is crucial for the protein's function and determines how it interacts with other molecules.
It is called "Denaturing" of proteins.
Tertiary Structure.
Weak hydrogen bond that form between some amino acids help to determine the three-dimensional shape.
A protein's three-dimensional structure is determined by the interactions between its R groups, specifically through hydrogen bonding, van der Waals interactions, disulfide bridges, and hydrophobic interactions. These interactions help stabilize the protein's tertiary structure, leading to its unique three-dimensional shape.