Peak selection
Peak selections are made with the peak select command and consist of two atom selections that are separated by a comma. The comma may be omitted if both atom selections consist of a single atom name. In addition, peak selections may contain one or several of the following conditions:
- colors=cmin..cmax
- Peaks with XEASY color code (an integer number) between cmin and cmax.
- diagonal=dmin..dmax
- Peaks between dmin and dmax ppm from the diagonal.
- fixed Peaks that are assigned to conformation-inde¬pendent distances.
- fraction=p Select randomly only a fraction p of all peaks that would normally be selected. This option can be useful when sim¬ulating peak lists.
- levels=m..n Peaks between residues that are between m and n residues apart.
- limit=dmin..dmax Peaks with distance limit between dmin and dmax.
- list=filename Select only peaks that were read from the peak list with the given filename (with extension).
- list=m..n Peaks that were read from peak lists m to n. Peak lists are numbered 1, 2,… in the order in which they have been read. Instead of a range specification, m..n, it is also possible to specify a single peak list number, m.
- multiple=mode Select individual assignments of an ambiguously assigned peak according to the given mode
- multiple=individual selects assignments individually, as if they would belong to separate peaks; multiple=ifany selects all assignments of a peak if at least one assignment matches the selection; multiple=ifall selects all assignments of a peak only if all assignments match the selection; multiple=no selects all peaks that do not have multiple assignments.
- numbers=m..n
- Peaks between with peak numbers between m and n.
ordered Peaks for which the assignment in dimension 1 matches the first atom selection and the assignment in dimension 2 matches the second atom selection. If this option is not given, the two atom selections can match in any order.
- overlap=doverlap
- Peaks with a normalized distance to another peak shorter than doverlap. The normalized distance between two peaks, i and j, in an n-dimensional spectrum is defined by
, where ik and ik are the chemical shift coordinates of the two peaks in dimension k, and k is the chemical shift tolerance for dimension k, as defined by the variable tolerance.
- ppm1=pmin..pmax: Peaks with shift in dimension 1 between pmin and pmax.
- ppm2=pmin..pmax: Peaks with shift in dimension 2 between pmin and pmax.
- ppm3=pmin..pmax: Peaks with shift in dimension 3 between pmin and pmax.
- ppm4=pmin..pmax: Peaks with shift in dimension 4 between pmin and pmax.
- quality=qmin..qmax
- Peaks with quality factor between qmin and qmax.
- volume=Vmin..Vmax
- Peaks with volume between Vmin and Vmax.
- variable
- Peaks that correspond to conformation de¬pendent distances.
Examples
- # all peaks
"*, *" # assigned peaks "HA, HA" # HA–HA peaks "H HA 20..50, *" # peaks with backbone protons of residues 20–50 "H HA 20..50, * ordered" # peaks with a backbone proton of residues 20–50 # in the first dimension "H HA 20..50, H HA 20..50" # peaks between backbone protons of
- residues 20–50
"AMIDE - H, METHYL" # peaks between side chain amides and methyls "** list=n15.peaks" # peaks read from peak list n15.peaks "** list=1..3" # peaks read from the second or third peak list "** ppm2=4.6..4.8" # peaks between 4.6 and 4.8 ppm in the second
- dimension
"*, * fraction=0.5" # 50% of all assigned peaks selected randomly "*, * level=5.. multiple=ifall" # peaks with only long-range assignments "+ ** numbers=120..130" # the previously selected peaks and peaks 120–130 The command peaks select can be used with the parameter info=full to check peak selections.