CYANA Command: enoe spindiff: Difference between revisions

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== Description ==
== Description ==


This command initializes the eNORA routine, fits the diagonal decays to obtain the auto-relaxation (rho) values and I(0), normalizes the cross peak intensities and fits the experimental buildups.
This command performs the spin diffusion calculations within the eNORA routine.


The diagonal peak to use for normalization is specified by the parameter '''normalize''', using the integers 1 or 2, with the integers referring to the proton dimension in the peak list.
The diagonal peak to use for normalization is specified by the parameter '''normalize''', using the integers 1 or 2, with the integers referring to the proton dimension in the peak list.

Revision as of 15:21, 17 January 2019

Parameters

b0field =real
(default: none)
tauc =real
(default: none)
maxdist =real
(default: none)
mode =integer
(default: 1)
rmode =integer
(default: 1)

Description

This command performs the spin diffusion calculations within the eNORA routine.

The diagonal peak to use for normalization is specified by the parameter normalize, using the integers 1 or 2, with the integers referring to the proton dimension in the peak list. The parameter normed specifies, if one wants to keep non-normalizable peaks (0) or only peaks that are properly normalized (1).

In practice, many diagonal peak decays cannot be fitted (due to spectral overlap, artifacts, etc.): The parameter rhoavg allows the input of an average auto-relaxation values to be used non specifically [s-1].

A spin-type specific value may be calculated to be read in a file containing spin type specific auto-relaxation values, the same file may be used to read spin-type specific I(0) values, see * read rho.

The parameter time specifies the measured NOE mixing times in ascending order [s]. The NOE mixing times are given as a coma separated list, i.e. time="0.02,0.04,0.06"