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To achieve its tertiary structure, a protein must fold into a specific three-dimensional shape, which is determined by its amino acid sequence. This folding involves the formation of various interactions, including hydrogen bonds, ionic bonds, hydrophobic interactions, and disulfide bridges. Molecular chaperones often assist in this process to ensure proper folding and prevent aggregation. The correct tertiary structure is crucial for the protein's functionality and activity.

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The final three dimentional shape of a protein is?

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.


What are the different levels of protein structure and explain why tertiary structure must be maintained for protein function?

Primary = The polypeptide chain.Secondary = Hydrogen bonding of the bases form alpha helix and beta sheets.Tertiary = The R groups bond with each other ( hydrophobic, hydrophyllic, salt bridges, hydrogen bonding ) and the final form of the protein is this construction, so this form must be maintained so that the protein maintains function.Quaternary = The building of structure from more than two protein ( tertiary ) subunits. Hemoglobin, for example.


What is it called when a protein folds back onto itself?

a. tertiary structure b. primary structure c. secondary structure d. tertiary structure pick your best answer


A protein folded into a globular shape in having only one polypeptide chain has what structure?

The protein would have a tertiary structure. This structure results from the unique folding of the single polypeptide chain into a 3D shape, giving the protein its functional conformation.


What does the tertiary structure of a protein tell you about the protein?

The tertiary structure of a protein provides information about how its secondary structural elements (such as alpha helices and beta sheets) are arranged in three dimensions to form a functional protein. It also reveals the specific interactions between amino acid residues and the overall 3D shape of the protein, which are crucial for its function. Additionally, the tertiary structure can give insight into the protein's stability, ligand binding sites, and biological activity.

Related Questions

Is insulin a tertiary protein structure?

The active form of insulin, in the body, is a tertiary protein structure. However, when stored in the body, several insulin molecules are bound together in a hexamer (a six-protein quaternary structure).


What is the teritary structure of a protein?

The tertiary structure of a protein is just how a polypeptide folds up into a "glob" or a "pretzel-like" shape. Primary structure determines secondary and tertiary structure of a protein. Usually a tertiary protein is held together Disulfide bonds like those found in a Cysteine residue.


Is hemoglobin a protein that exhibits the quaternary structure of protein folding?

The tertiary structure is the folding


The final three dimentional shape of a protein is?

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.


How is tertiary protein structure dependent on primary protein structure?

The relationship between the primary and tertiary structure of a protein is the both have a sequence of amino acids in a polypeptide chain.orThe sequence of amino acids in a primary structure determines its three-dimensional shape ( secondary and tertiary structure)


What are the different levels of protein structure and explain why tertiary structure must be maintained for protein function?

Primary = The polypeptide chain.Secondary = Hydrogen bonding of the bases form alpha helix and beta sheets.Tertiary = The R groups bond with each other ( hydrophobic, hydrophyllic, salt bridges, hydrogen bonding ) and the final form of the protein is this construction, so this form must be maintained so that the protein maintains function.Quaternary = The building of structure from more than two protein ( tertiary ) subunits. Hemoglobin, for example.


What is the 3 dimensional shape of a protein?

Tertiary Structure.....:)


What is the tertiary structure of a protein is determined?

Hydrogen Bonds


What is tertiary structure in protein?

The 3D shape or fold.


What role does the tertiary structure of a protein play in determining its function?

The tertiary structure of a protein is crucial in determining its function because it determines the overall 3D shape of the protein. This shape is essential for the protein to interact with other molecules and perform its specific biological functions. Changes in the tertiary structure can alter the protein's function or render it non-functional.


Differentiate the four types of protein structure?

Primary structure: The linear sequence of amino acids in a protein. Secondary structure: Local folding patterns such as alpha helices and beta sheets. Tertiary structure: Overall 3D shape of a single protein molecule. Quaternary structure: Arrangement of multiple protein subunits in a complex.


What is a tertiary protein structure exemplified by?

A tertiary protein structure is the three-dimensional arrangement of a polypeptide chain. An example of a tertiary protein structure is the globular shape of enzymes like catalase or lysozyme. This structure is crucial for the protein's function as it determines the active sites and binding sites.