Basic structure calculation starting from given restraints: Difference between revisions

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(New page: read upl demo.upl # read upper distance bounds read aco demo.aco # read dihedral angle restraints calc_all 50 steps=4000 # calculate conformers overview demo.ovw struct...)
 
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This calculation shows how to calculate a structure from previously assigned upper limits and dihedral angle restraints. The input data are in the 'demo/basic' subdirectory of the CYANA software package:


  read upl demo.upl # read upper distance bounds
;demo.seq:amino acid sequence
  read aco demo.aco # read dihedral angle restraints
;demo.upl:upper distance limit restraints
 
;demo.aco:dihedral angle restraints
  calc_all 50 steps=4000 # calculate conformers
;CALC.cya:macro for the structure calculation
 
When CYANA is started, it automatically reads the standard amino acid library and the amino acid sequence of the protein (if multiple sequence files are in the current directory, the most recently modified one is read).
 
The actual structure calculation is performed by the commands in the macro file '''CALC.cya''':
 
read upl demo.upl # read upper distance bounds
read aco demo.aco # read dihedral angle restraints
calc_all 50 steps=4000         # calculate conformers
overview demo.ovw structures=10 pdb # analyze and write best conformers
 
[[Image:StructuresDemoBasic.png|thumb|200px|'''demo.pdb''']]
The first two commands read the input files with upper distance bounds and dihedral angle restraints, respectively. Then, 50 conformers are calculated using the standard [[simulated annealing]] schedule with 4000 [[torsion angle dynamics]] steps per conformer. Finally, the 10 conformers with the lowest final target function values are analyzed. The coordinates of these 10 best conformers are written to the PDB file '''demo.pdb''', and an [[CYANA Macro: overview|overview]] table is saved in the file '''demo.ovw''':
  Structural statistics:
    
    
   overview demo.ovw structures=10 pdb # analyze and write best conformers
   str  target    upper limits    van der Waals  torsion angles
      function  #    rms  max  #    sum  max  #    rms  max
    1    1.56  1 0.0073  0.36  5    5.2  0.34  0 0.3460  3.19
    2    1.87  2 0.0084  0.36  5    6.1  0.33  0 0.3813  3.63
    3    1.92  2 0.0083  0.36  5    5.8  0.36  0 0.3491  3.29
    4    1.94  1 0.0082  0.36  6    6.4  0.34  0 0.3478  3.46
    5    2.02  2 0.0080  0.35  7    5.7  0.34  0 0.5790  4.35
    6    2.05  1 0.0082  0.35  8    6.0  0.34  0 0.5704  4.29
    7    2.12  2 0.0092  0.36  4    6.5  0.35  0 0.3629  3.47
    8    2.20  4 0.0105  0.36  5    7.2  0.31  0 0.3597  3.45
    9    2.24  2 0.0087  0.36  6    7.4  0.34  0 0.3843  3.47
  10    2.34  3 0.0119  0.61  5    6.6  0.35  0 0.3309  3.05
  Ave    2.03  2 0.0089  0.38  6    6.3  0.34  0 0.4011  3.56
  +/-    0.21  1 0.0013  0.08  1    0.7  0.01  0 0.0881  0.41
  Min    1.56  1 0.0073  0.35  4    5.2  0.31  0 0.3309  3.05
  Max    2.34  4 0.0119  0.61  8    7.4  0.36  0 0.5790  4.35
  Cut                      0.20            0.20            5.00
  Constraints violated in 3 or more structures:
                                                #  mean  max.  1  5  10
  Upper HA    ASP  68 - H    ASN  69  3.28  4  0.11  0.29  +*  ++    peak 1162
  Upper HB    ILE  85 - H    ASP  86  3.80  10  0.36  0.36  +++++++++*  peak 803
  VdW  N    LEU  39 - CD1  LEU  39  3.05  10  0.23  0.24  ++++++++*+
  VdW  N    ILE  81 - CD    PRO  82  3.05  10  0.26  0.28  ++*+++++++
  VdW  N    ILE  81 - HD2  PRO  82  2.45  10  0.34  0.36  ++*+++++++
  VdW  CG2  ILE  81 - C    ILE  81  2.90  6  0.20  0.22  ++  ++ *+
  VdW  CB    THR  91 - H    GLN  92  2.55  7  0.22  0.27  ++++++  *
  VdW  O    THR  91 - CB    GLN  92  2.90  3  0.15  0.20      * ++
  VdW  HA    VAL  107 - CD    PRO  108  2.60  4  0.18  0.30    *+  + +
  2 violated distance restraints.
  7 violated van der Waals restraints.
  0 violated angle restraints.
  RMSDs for residues 10..100:
  Average backbone RMSD to mean  :    0.52 +/- 0.09 A (0.40..0.72 A; 10 structures)
  Average heavy atom RMSD to mean :    1.04 +/- 0.06 A (0.96..1.17 A; 10 structures)

Latest revision as of 08:27, 28 July 2019

This calculation shows how to calculate a structure from previously assigned upper limits and dihedral angle restraints. The input data are in the 'demo/basic' subdirectory of the CYANA software package:

demo.seq
amino acid sequence
demo.upl
upper distance limit restraints
demo.aco
dihedral angle restraints
CALC.cya
macro for the structure calculation

When CYANA is started, it automatically reads the standard amino acid library and the amino acid sequence of the protein (if multiple sequence files are in the current directory, the most recently modified one is read).

The actual structure calculation is performed by the commands in the macro file CALC.cya: 

read upl demo.upl			# read upper distance bounds
read aco demo.aco			# read dihedral angle restraints

calc_all 50 steps=4000		        # calculate conformers

overview demo.ovw structures=10 pdb	# analyze and write best conformers
demo.pdb

The first two commands read the input files with upper distance bounds and dihedral angle restraints, respectively. Then, 50 conformers are calculated using the standard simulated annealing schedule with 4000 torsion angle dynamics steps per conformer. Finally, the 10 conformers with the lowest final target function values are analyzed. The coordinates of these 10 best conformers are written to the PDB file demo.pdb, and an overview table is saved in the file demo.ovw: 

 Structural statistics:
 
 str   target     upper limits    van der Waals   torsion angles
     function   #    rms   max   #    sum   max   #    rms   max
   1     1.56   1 0.0073  0.36   5    5.2  0.34   0 0.3460  3.19
   2     1.87   2 0.0084  0.36   5    6.1  0.33   0 0.3813  3.63
   3     1.92   2 0.0083  0.36   5    5.8  0.36   0 0.3491  3.29
   4     1.94   1 0.0082  0.36   6    6.4  0.34   0 0.3478  3.46
   5     2.02   2 0.0080  0.35   7    5.7  0.34   0 0.5790  4.35
   6     2.05   1 0.0082  0.35   8    6.0  0.34   0 0.5704  4.29
   7     2.12   2 0.0092  0.36   4    6.5  0.35   0 0.3629  3.47
   8     2.20   4 0.0105  0.36   5    7.2  0.31   0 0.3597  3.45
   9     2.24   2 0.0087  0.36   6    7.4  0.34   0 0.3843  3.47
  10     2.34   3 0.0119  0.61   5    6.6  0.35   0 0.3309  3.05

 Ave     2.03   2 0.0089  0.38   6    6.3  0.34   0 0.4011  3.56
 +/-     0.21   1 0.0013  0.08   1    0.7  0.01   0 0.0881  0.41
 Min     1.56   1 0.0073  0.35   4    5.2  0.31   0 0.3309  3.05
 Max     2.34   4 0.0119  0.61   8    7.4  0.36   0 0.5790  4.35
 Cut                      0.20             0.20             5.00

 Constraints violated in 3 or more structures:
                                                #   mean   max.  1   5   10
 Upper HA    ASP   68 - H     ASN   69   3.28   4   0.11   0.29   +*   ++    peak 1162
 Upper HB    ILE   85 - H     ASP   86   3.80  10   0.36   0.36  +++++++++*  peak 803
 VdW   N     LEU   39 - CD1   LEU   39   3.05  10   0.23   0.24  ++++++++*+
 VdW   N     ILE   81 - CD    PRO   82   3.05  10   0.26   0.28  ++*+++++++
 VdW   N     ILE   81 - HD2   PRO   82   2.45  10   0.34   0.36  ++*+++++++
 VdW   CG2   ILE   81 - C     ILE   81   2.90   6   0.20   0.22  ++  ++ *+
 VdW   CB    THR   91 - H     GLN   92   2.55   7   0.22   0.27  ++++++   *
 VdW   O     THR   91 - CB    GLN   92   2.90   3   0.15   0.20       * ++
 VdW   HA    VAL  107 - CD    PRO  108   2.60   4   0.18   0.30    *+  + +
 2 violated distance restraints.
 7 violated van der Waals restraints.
 0 violated angle restraints.

 RMSDs for residues 10..100:
 Average backbone RMSD to mean   :    0.52 +/- 0.09 A (0.40..0.72 A; 10 structures)
 Average heavy atom RMSD to mean :    1.04 +/- 0.06 A (0.96..1.17 A; 10 structures)
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