CYANA Command: grid correlate: Difference between revisions

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== Parameters ==
== Parameters ==


; function=''string''             (required)
; function=''string'': (required)
; selection=''string'': (default: ''none'')
; selection=''string'': (default: ''none'')


== Description ==
== Description ==


Defines relationships between dihedral angles in a grid search. For instance, the dihedral angles of a sugar ring can be represented by a single degree of freedom, the pseudorotation angle.
To represent a group of torsion angles as a single degree of freedom in a grid search, this command has to be called once for each correlated dihedral angle.  If the ''selection'' matches exactly one angle within the fragment, then this dihedral angle will be related by the given  ''function'', a Fortran expression of type real, to a variable, '''p'''. The variable '''p''' will be the single degree of freedom for the grid search during which it will vary from 0 to 2π. If exactly two angles within the fragment are selected, one of which has occurred in a previous '''grid correlate''' command, then the “new” angle will be correlated by the given ''function'' to the same parameter '''p''' as the "old" angle.


This command defines relationships between dihedral angles in a grid
search. For instance, the dihedral angles of a sugar ring can be
represented by a single degree of freedom, the pseudorotation angle.


To represent a group of dihedral angles as a single degree of
For example, a molecular fragment consisting of the sugar ring of nucleotide residue 4 in a DNA or RNA molecule can be defined, and the dihedral angles of the sugar ring, DELTA, NU1, and NU2 be correlated to the pseudorotation angle, as follows:
freedom in a grid search, this command has to be called once for each
correlated dihedral angle.  If exactly one angle within the fragment
is matched by the '''selection''' parameter, then this dihedral angle
will be related by the given '''function''', a Fortran expression of type
real, to a variable, p. The variable p will be the single degree of
freedom during the grid search during which it will vary from 0 to
2*pi. If exactly two angles within the fragment are selected, one of
which has occurred in a previous angle correlate command, then the
"new" angle will be correlated by the given '''function''' to the same
parameter p as the "old" angle.


For example, a molecular fragment consisting of the sugar ring of
   grid fragment DELTA NU1 NU2 4<br>
nucleotide residue 4 in a DNA or RNA molecule can be defined, and the
   numax=40.0/rad # amplitude; rad = 180/π<br>
dihedral angles of the sugar ring, DELTA, NU1, and NU2 be correlated
   grid correlate numax*cos(p+2*pi/5)+2*pi/3 DELTA<br>
to the pseudorotation angle, as follows:
   grid correlate numax*cos(p-2*pi/5) "DELTA NU1"<br>
 
   grid correlate numax*cos(p) "DELTA NU2"<br>
   grid fragment "DELTA NU1 NU2 4"
   numax=40.0*pi/180.0
   grid correlate numax*cos(p+4*pi/5)+2*pi/3 "DELTA 4"
   grid correlate numax*cos(p-4*pi/5) "DELTA NU1 4"
   grid correlate numax*cos(p) "DELTA NU2 4"


== See also ==
== See also ==


* [[sugarring]]
* [[sugarring]]

Latest revision as of 14:24, 12 August 2009

Parameters

function=string
(required)
selection=string
(default: none)

Description

Defines relationships between dihedral angles in a grid search. For instance, the dihedral angles of a sugar ring can be represented by a single degree of freedom, the pseudorotation angle. To represent a group of torsion angles as a single degree of freedom in a grid search, this command has to be called once for each correlated dihedral angle. If the selection matches exactly one angle within the fragment, then this dihedral angle will be related by the given function, a Fortran expression of type real, to a variable, p. The variable p will be the single degree of freedom for the grid search during which it will vary from 0 to 2π. If exactly two angles within the fragment are selected, one of which has occurred in a previous grid correlate command, then the “new” angle will be correlated by the given function to the same parameter p as the "old" angle.


For example, a molecular fragment consisting of the sugar ring of nucleotide residue 4 in a DNA or RNA molecule can be defined, and the dihedral angles of the sugar ring, DELTA, NU1, and NU2 be correlated to the pseudorotation angle, as follows:

 grid fragment DELTA NU1 NU2 4
numax=40.0/rad # amplitude; rad = 180/π
grid correlate numax*cos(p+2*pi/5)+2*pi/3 DELTA
grid correlate numax*cos(p-2*pi/5) "DELTA NU1"
grid correlate numax*cos(p) "DELTA NU2"

See also