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Analysis of nucleic acid double helix geometry

PDB code 5TDJ   (PDB summary)
Duplex length 10 base pairs

Only the nucleic acid double helix part of the structure is analysed here. Small ligands, proteins, and overhanging ends are not taken into account. Information on the complete structure is available at the Image Library Entry page and at the Sequence, Chains, Units page.

Strand 1    5' C1 C2 G3 G4 C5 G6 C7 C8 G9 G10 3'
Strand 2    3' G10 G9 C8 C7 G6 C5 G4 G3 C2 C1 5'

Side view 1 Top view
Side view 1 Top view
Side view 2 3-dimensional interactive models
(Help)
  

RASMOL, CHIME, VRML 2.0, PDB

Side view 2  

Figure 1   Three orthogonal views of the double helix (Help). Residues are colored according to the nucleotide type (Help: Color codes). The curvilinear helical axis (green) was calculated with CURVES. The double helix is oriented with respect to the principle axis of inertia of the curvilinear helical axis (see Help for further explanations). This drawing reveals immediately if there is any bending of the helical axis.


Analysis of helical axis bending


Inter base pair parameters

The six inter base pair parameters (rise, shift, slide, twist, roll, tilt) describe the translational and rotational displacement between neighbouring base pairs. See Help for further explanations.

Plot of inter base pair parameters with respect to global and local helical axes:  PDF,   GIF
(Global parameters from CURVES,  local parameters from CURVES and FREEHELIX)

Table 1.  Inter base pair parameters with respect to the global helical axis, calculated with CURVES.


  Strand 1      Strand 2        riseg          shiftg          slideg          twistg         rollg         tiltg    
    / Å / Å / Å      

C1 G10            
    0.3 -1.0 -1.8 -0° -1°
C2 G9            
    -1.3 0.9 -1.0 10° -7°
G3 C8            
    0.3 0.5 2.7 -2° -6°
G4 C7            
    -0.4 0.2 5.7 -2° -14° 10°
C5 G6            
    0.1 -0.2 10.0 -1° -25° -11°
G6 C5            
    0.6 0.5 5.7 -16° 10°
C7 G4            
    -0.6 0.1 2.9 -1° -4°
C8 G3            
    1.3 1.3 -0.7 10° -7°
G9 C2            
    0.2 -0.9 -1.5 -1° -3°
G10 C1            


Backbone parameters

Table 2.  Selected torsional angles and sugar pucker phase angles describing the conformation of the sugar phosphate backbone. (See Help for further explanations.)


 gamma     epsilon-zeta       pucker        chi      Strand 1     Strand 2      chi        pucker       epsilon-zeta     gamma 

    C2'-exo -170° C1 G10 -163° C3'-endo    
 51°   -55° (BI)             -78° (BI)   87° 
    C3'-endo -162° C2 G9 -174° C3'-endo    
 51°   -83° (BI)             -103° (BI)   48° 
    C2'-endo -120° G3 C8 -160° C3'-endo    
 55°   0° (BI)             -93° (BI)   57° 
    C3'-endo -165° G4 C7 -161° C3'-endo    
 55°   -73° (BI)             -75° (BI)   33° 
    C2'-endo -123° C5 G6 -164° C3'-endo    
 50°   0° (BI)             0° (BI)   68° 
    C3'-endo -162° G6 C5 -127° C2'-endo    
 60°   -66° (BI)             -72° (BI)   54° 
    C3'-endo -165° C7 G4 -163° C3'-endo    
 55°   -85° (BI)             0° (BI)   63° 
    C3'-endo -161° C8 G3 -129° C2'-endo    
 97°   -103° (BI)             -84° (BI)   44° 
    C3'-endo -174° G9 C2 -159° C3'-endo    
 51°   -82° (BI)             -55° (BI)   -113° 
    C3'-endo -162° G10 C1 -169° C2'-exo    


Groove width

Plot of minor groove width:   PDF,   GIF
Plot of major groove width:   PDF,   GIF
(See Help for further explanations.)

Further information

Full output from CURVES  (helical parameters with respect to global and local axes)

Full output from FREEHELIX  (helical parameters with respect to local axis, angles between normal vectors)

Chirality of ribose and phosphate atoms
Check the naming of phosphate and ribose substituents. Recommended for phosphate oxygens and for ribose hydrogens in NMR structures.


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Perl script:    helixparameter.pl  (15 Sep 2016)
Author:    Peter Slickers  (slickers@leibniz-fli.de),  IMB Jena,  Germany