g_helix Main Table of Contents

VERSION 4.6.7 Fri 29 Aug 2014

Description

g_helix computes all kinds of helix properties. First, the peptide is checked to find the longest helical part, as determined by hydrogen bonds and φ/ψ angles. That bit is fitted to an ideal helix around the z-axis and centered around the origin. Then the following properties are computed:

1. Helix radius (file radius.xvg). This is merely the RMS deviation in two dimensions for all Cα atoms. it is calculated as sqrt((sum_i (x^2(i)+y^2(i)))/N) where N is the number of backbone atoms. For an ideal helix the radius is 0.23 nm
2. Twist (file twist.xvg). The average helical angle per residue is calculated. For an α-helix it is 100 degrees, for 3-10 helices it will be smaller, and for 5-helices it will be larger.
3. Rise per residue (file rise.xvg). The helical rise per residue is plotted as the difference in z-coordinate between Cα atoms. For an ideal helix, this is 0.15 nm
4. Total helix length (file len-ahx.xvg). The total length of the helix in nm. This is simply the average rise (see above) times the number of helical residues (see below).
5. Helix dipole, backbone only (file dip-ahx.xvg).
6. RMS deviation from ideal helix, calculated for the Cα atoms only (file rms-ahx.xvg).
7. Average Cα - Cα dihedral angle (file phi-ahx.xvg).
8. Average φ and ψ angles (file phipsi.xvg).
9. Ellipticity at 222 nm according to Hirst and Brooks.

Files

Other options