Contents
Proteins are polymers of Amino Acids
Proteins provide much of the structural and functional capacity of cells. Proteins are composed of monomers called amino acids. Amino Acids are hydrocarbons that have an amino group (-NH2) and an acidic carboxyl group (-COOH).The R group represents a hydrocarbon chain with a modification that alters the properties of the amino acid. 20 universal amino acids are used to construct proteins. The variation in functional groups along the amino acid chain gives rise to the functional diversity of proteins.
How amino acids interact with each other and the environment
Use the following simulation to test how a polypeptide chain with fold based on the type of solution it is in and the composition of the amino acids.
- Protein Folding Simulation (CC BY 4.0 Concord Consortium)
Levels of structure
- Primary Structure (1°): The sequence of amino acids read from the Amino or N-terminal end of the molecule to the Carboxyl or C-terminal end
- Tyr-Cys-Arg-Phe-Leu-Val-….
- Secondary Structure (2°): local three-dimensional structures that form from interactions of amino acids, like hydrogen bonding
- Alpha Helix – coils occurring from the H-bonds between N-H and C=O groups along the backbone of the protein
Side view of α-helix illustrating H-bonds in magenta between carboxyl oxygen (red) and amine nitrogen (blue) 
Top-down view of an α-helix 
Side view of ribbon diagram of α-helices traversing a membrane.
- Beta Sheets – laterally connected strands or sheets of amino acids occurring from the H-bonds between N-H and C=O groups along the backbone of the protein
Ribbon diagram of β-sheets
- Alpha Helix – coils occurring from the H-bonds between N-H and C=O groups along the backbone of the protein
- Tertiary structure (3°): overall 3-D structure of the peptide chain
- Quaternary structure(4°): multimeric protein structure from assembling multiple peptide subunits
Diversity of Proteins
Learn more about complexity of protein structures at the Protein Data Bank
