Some general properties of alpha-helices: It is held together by hydrogen bonds between the C=O of residue i and the NH of residue i+4.It rises approximately 5.4 Â with each turn.It completes one turn every 3.6 residues.In summary, the ideal alpha helix has the following properties: These helical phi,psi values are in the well-populated area in the lower left of the Ramachandran plot (shown on the right). Continue down the helix backbone, getting omega (near 180 degrees), phi, psi, etc. Click on the next N and you will get the psi angle, which should be between -25 and -60 degrees. For a righthanded alpha-helix, it should be in the range of -50 to -80 degrees. Start by clicking on a carbonyl C atom near the top, then the next N, then the Cα, and then a C again at that point the information line will show a dihedral angle that is the phi angle of the central N-Cα bond of those 4 atoms. To measure phi,psi angles for the KiNG example helix, turn on "Measure angle & dihedral" on the "Tools" pulldown menu. When that motion matches the backbone spiral if done with the right hand, then the helix is righthanded. To see that this one is righthanded, hold your right hand with the thumb pointing up and the fingers loosely curled trying to match the spiral of the helix, move slowly along the direction your thumb points and curl along the line of your fingers, as though tightening a screw.
Helix definition full#
If you were to mesure, the rise of a full turn is 5.4 Angstroms (Â).Īlpha helices are nearly all right-handed. Check to see if this alpha helix has 3.6 residues per turn. Click on backbone atoms at either end of one of the H-bonds, to verify that the alpha-helical H-bond pattern does indeed go from a donor NH at residue i to an acceptor O at residue i-4 (as shown in the figure to the right). Turn on "Hbonds" on the button panel, to see the H-bonds in brown. In KiNG, choose View4 for a close-up from the side, with the helical hydrogen bonds (H-bonds) in brown. Grisham (University of Virginia in Charlottesville, Virginia). This figure is a snaphot of a Java Applet written by Edward K. The amino acid residues are numbered from nearest to most distant and are arranged as an ideal alpha helix with 3.6 residues per complete turn. The figure to the left shows a helical wheel representation of an amino acid sequence, as if looking down the axis of an alpha helix that is perpendicular to the page. In the view menu in KiNG, choose View2 or View3 to see more of the structure. This is a typical globular-protein helix in its native configuration, the polar residues would face the solvent while the hydrophobic residues would face the protein interior. When you clicked the different sidechain types on, what did you observe? Did you notice that the helix has one side with mainly polar residues, and the other with mainly hydrophobic residues?. Now TURN ON and OFF the various display groups and sets, by clicking in the appropriate button box. These can be turned on by clicking on the checkbox labeled "side ch". The hydrophobic side chains are shown in seagreen, polar ones in skyblue, and charged ones in red. Notice that the Cα-Cβ bonds do not point out radially from the helix axis but "pinwheel" along the line of one of the adjacent peptides, giving the side chains an asymmetrical start. The non-integral, 3.6-residue-per-turn repeat of the alpha helix means that the Cα's of successive turns are about halfway offset, giving the main chain a distinctive 7-pointed star appearance in end view. The O and N atoms of the helix main chain are shown as red and blue balls, respectively. The kinemage linked above shows an individual alpha helix, viewed from the N-terminal end to resemble the "helical wheel" (see figure below). Īn alpha helix is an element of secondary structure in which the amino acid chain is arranged in a spiral. If you need information on using King, please hover here. Upon loading this page, the KiNG Java Applet should automatically spawn. To load the KiNG Java Applet, just click here.
Helix definition software#
These will be described in the following sections and visualized using the KiNG software mentioned previously. Several common secondary structures have been identified in proteins. While primary structure describes the sequence of amino acids forming a peptide chain, secondary structure refers to the local arrangement of the chain in space.
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