Helices in Proteins

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Helical conformations in proteinsHelical conformations in proteins

This page illustrates the 3 most common helical conformations (secondary structures) found in proteins.

All are decapeptide segments extracted from actual protein structures in the PDB. They are shown using the same scale, for a better comparison (as a consequence, zoom in the Jmol applets is disabled).

310 helix alpha helix pi helix
Drag the structure with the mouse to rotate
Drag the structure with the mouse to rotate
Drag the structure with the mouse to rotate

310
3 residues/turn
rise 0.20 nm/residue
helix pitch 0.60 nm
H bonds: Ni+3 → Oi
φ = -49°, ψ = -26°

3.613
3.6 residues/turn
rise 0.15 nm/residue
helix pitch 0.54 nm
H bonds: Ni+4 → Oi
φ = -60°, ψ = -45°

4.416
4.4 residues/turn
rise ~0.115 nm/residue
helix pitch ~0.41 nm
H bonds: Ni+5 → Oi
φ = -55°, ψ = -70° (approx.)

The alpha helix is by far the most common helix. Note that it is a right-handed helix when formed with the common L-amino acids. (It is left-handed when formed with D-amino acids.) When viewed from either end, right-handed helices turn clockwise when followed away from you.

See AlsoSee Also

ReferencesReferences

Proteopedia Page Contributors and Editors (what is this?)Proteopedia Page Contributors and Editors (what is this?)

Angel Herraez, Eric Martz, Karsten Theis, Joel L. Sussman
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