Protein Structure 1

Protein Structure 1Primary and Secondary Structure

Proteins fold into the local minimum free energy structure defined by their primary sequence.

The native structure may not be the global free energy structure.

Polypeptide chains can assume an infinite number of potential structures. The physical chemistry of the peptide bond and steric hindrance between the peptide bond elements restrict the potential structures assumed by a polypeptide to a finite number of structures.

Hierarchy of Protein Structure

Primary sequence- The amino acid sequence of a polypeptide, listed from N-terminus to C-terminus.Secondary structure- Recurring structural feature of proteins stabilized exclusively by hydrogen bonds between peptide bond elements. Supersecondary structure- Recurring structural feature of proteins composed of two or more secondary structural elements. Domain- A segment of protein structure that is autonomously stable. Tertiary structure- A stable, independent protein encoded by a single gene.

Quaternary structure- A complex structure composed of two or more tertiary structure subunits.

The Electronegativity of the O and N of the Peptide Bond Results in a Dipole

Peptide Bonds Favor the trans Configuration Except When Proline is Present

poly-alanine (trans:cis = 2500:1)

alanyl-prolyl (trans:cis = 4:1)

In cells, prolyl peptide isomerization is catalyzed by Prolyl isomerase.

Resonance in the Peptide Bond Results in Planarity of the Peptide Bond

Polypeptides behave as a series of plates hinged at C.

Phi angle

Psi angle

Ramachandran Plots Define the Allowable Structures Assumed by a Polypeptide Chain

di-Alanine di-Glycine di-Alanine(hard sphere approximation) (molecular dynamics calculation)

Plot of phi and psi angles for 2500 residues in 13 proteins

Types of Secondary Structures

Repeating Structures Form Helices

Alpha, 310, and Pi Helices

310 helix helix helix

Helical wheel plot revealing amphipathic nature of helix

Cylindrical plot revealing alignment of side chains

Side Chain Interactions Provide Additional Stability to Helices and Signal the Limits of Helix Formation

Table of helical propensities

Parallel and Anti-parallel Beta Sheets

anti-parallel parallel

poly-proline

collagen triple helix

The Gly-X-Y Repeat Sequence is Essential for Collagen Triple Helix Formation

Reverse Turns Connect Segments of Anti-parallel Beta Sheets

Type 1 reverse turnType 2 reverse turn310 helix

Always glycine