Polypeptide

The amino acids in a polypeptide chain can be modified by enzymes after they are synthesized, altering the properties of the protein.

The sequence of amino acids in a polypeptide chain determines its function in the body.

The peptide bonds within a polypeptide chain can be cleaved by proteolytic enzymes.

The formation of a polypeptide requires multiple peptide bonds between individual amino acids.

Polypeptide chains are synthesized by the ribosomes in cells, using information encoded in the DNA of genes.

The strength of a polypeptide chain is largely determined by the stability of its peptide bonds.

The polypeptide chain of a protein can fold into a specific three-dimensional shape that determines its function.

The bonds between the amino acids in a polypeptide chain are covalent, meaning they are very strong and difficult to break.

The peptide bonds in a polypeptide chain are planar due to the geometry of the nitrogen and carbon atoms involved.

The sequence of peptide bonds within a polypeptide chain determines its primary structure.

The length of a polypeptide chain can vary from just a few amino acids to thousands of them.

A polypeptide chain is made up of many individual polypeptides linked together by peptide bonds.

A polypeptide can consist of hundreds or thousands of amino acids.

Hemoglobin is a complex polypeptide that carries oxygen in the blood.

Collagen is a polypeptide that forms the basis of connective tissues in the body.

The shape of a polypeptide determines its function in the body.

The folding of a polypeptide is driven by its amino acid sequence.

A single polypeptide can have multiple functional domains.

The polypeptide chain is a fundamental component of most biological molecules.

The function of a polypeptide depends on its unique sequence of amino acids.

The structure of a polypeptide is determined by its amino acid sequence.

The primary structure of a polypeptide refers to the order of amino acids.

The structure of a protein depends on the polypeptide sequence and how it folds.

Insulin is a polypeptide hormone that regulates glucose levels in the body.

Polypeptide synthesis is a complex process that requires precise control of chemical reactions.

Hemoglobin is a polypeptide that carries oxygen in red blood cells.

Collagen is a fibrous protein made up of three polypeptide chains coiled together.

The structure of insulin is composed of two polypeptide chains connected by disulfide bonds.

The polypeptide is synthesized during translation, a process that occurs in the ribosomes.

The length and sequence of the polypeptide chain determine the shape and function of the protein it forms.

The polypeptide sequence determines the function and properties of the protein it forms.

The genetic code in DNA determines the sequence of amino acids in a polypeptide chain.

Post-translational modifications can affect the function and stability of a polypeptide.

The polypeptide is an essential component of proteins, which are building blocks of the body.

The polypeptide chain can consist of hundreds or thousands of amino acids.

The scientist studied the structure of the polypeptide chain to understand its role in protein synthesis.

The length and composition of a polypeptide can impact its stability and solubility.

The polypeptide chain can have various secondary structures such as alpha-helices and beta-sheets.

The polypeptide folds into a specific three-dimensional structure to carry out its function.

The polypeptide backbone is composed of repeating peptide bond units.

The polypeptide chain can be modified post-translationally to add functional groups or other chemical modifications.

The polypeptide sequence encodes the genetic information required for protein synthesis.

The polypeptide chain can be modified by post-translational modifications, such as phosphorylation or glycosylation.

The polypeptide is a linear sequence of amino acids that forms the backbone of a protein.

The primary structure of a polypeptide is determined by the sequence of amino acids.

The polypeptide chain can interact with other molecules to form functional protein complexes.

The polypeptide is composed of a sequence of amino acids, which determines its unique properties.

The folding of a polypeptide chain into its 3D structure is crucial for its biological function.

The tertiary structure of a polypeptide chain is stabilized by various types of chemical bonds.

Collagen, a structural protein, consists of three polypeptide chains woven together.