Polyproline helix

Polyproline helix

In proteins, a left-handed polyproline II helix (PPII, poly-Pro II) is formed when sequential residues all adopt (φ,ψ) backbone dihedral angles of roughly (-75°, 150°) and have "trans" isomers of their peptide bonds. Similarly, a more compact right-handed polyproline I helix (PPI, poly-Pro I) is formed when sequential residues all adopt (φ,ψ) backbone dihedral angles of roughly (-75°, 160°) and have "cis" isomers of their peptide bonds. Of the twenty common naturally occurring amino acids, only proline is likely to adopt the "cis" isomer of the peptide bond, specifically the X-Pro peptide bond; steric and electronic factors heavily favor the "trans" isomer in most other peptide bonds. However, peptide bonds that replace proline with another "N"-substituted amino acid (such as sarcosine) are also likely to adopt the "cis" isomer.

Polyproline II helix

The PPII helix is defined by (φ,ψ) backbone dihedral angles of roughly (-75°, 150°) and "trans" isomers of the peptide bonds. The rotation angle Ω per residue of any polypeptide helix with "trans" isomers is given by the equation

:3 cos Omega = 1 - 4 cos^{2} left [ left(phi + psi ight)/2 ight]

Substitution of the poly-Pro II (φ,ψ) dihedral angles into this equation yields almost exactly Ω = -120°, i.e., the PPII helix is a left-handed helix (since Ω is negative) with three residues per turn (360°/120° = 3). The rise per residue is approximately 3.1 Å. This structure is somewhat similar to that adopted in the fibrous protein collagen, which is composed mainly of proline, hydroxyproline, and glycine. PPII helices are specifically bound by SH3 domains; this binding is important for many protein-protein interactions and even for interactions between the domains of a single protein.

The PPII helix is relatively open and has no internal hydrogen bonding, as opposed to the more common helical secondary structures, the alpha helix and its relatives the 310 helix and the pi helix, as well as the β-helix. The amide nitrogen and oxygen atoms are too far apart (approximately 3.8 Å) and oriented incorrectly for hydrogen bonding. Moreover, these atoms are both H-bond "acceptors" in proline; there is no H-bond donor due to the cyclic side chain.

The PPII backbone dihedral angles (-75°, 150°) are observed frequently in proteins, even for amino acids other than proline. The Ramachandran plot is highly populated in the PPII region, comparably to the beta sheet region around (-135°, 135°). For example, the PPII backbone dihedral angles are often observed in turns, most commonly in the first residue of a type II β-turn. The "mirror image" PPII backbone dihedral angles (75°, -150°) are rarely seen, except in polymers of the achiral amino acid glycine. The analog of the poly-Pro II helix in poly-glycine is called the poly-Gly II helix.

Polyproline I helix

The poly-Pro I helix is much denser than the PPII helix due to the "cis" isomers of its peptide bonds. It is also rarer than the PPII conformation because the "cis" isomer is higher in energy than the "trans". Its typical dihedral angles (-75°, 160°) are close, but not identical to, those of the PPII helix. However, the PPI helix is a "right-handed" helix and more tightly wound, with roughly 3.3 residues per turn (rather than 3). The rise per residue in the PPI helix is also much smaller, roughly 1.9 Å. Again, there is no internal hydrogen bonding in the poly-Pro I helix, both because an H-bond donor atom is lacking and because the amide nitrogen and oxygen atoms are too distant (roughly 3.8 Å again) and oriented incorrectly.

tructural properties

The poly-Pro helices are stable and stiff despite their lack of internal hydrogen bonding, and have been used as a "molecular ruler" in biophysical experiments, e.g., to calibrate distances measured by FRET. Interconversions between the PPII and PPI helix forms of poly-proline are slow, due to the high activation energy of X-Pro "cis-trans" isomerization ("E"a ≈ 20 kcal/mol); however, this interconversion may be catalyzed by specific isomerases known as prolyl isomerases or PPIases.

References

* Adzhubei AA and Sternberg MJE. (1993) "Left-handed Polyproline II Helices Commonly Occur in Globular Proteins", "J. Mol. Biol.", 229, 472-493.


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