useBRAIN: Function computing probabilities of aggregated isotopic...
In BRAIN: Baffling Recursive Algorithm for Isotope distributioN calculations
Description
Usage
Arguments
Details
Value
Note
Author(s)
References
See Also
Examples
View source: R/iso.and.masses.R
Description
Function computing probabilities of isotopic variants and their aggregated masses for chemical components composed of carbon, hydrogen, oxygen, nitrogen
and sulfur (e.g. peptides). Additionally the function returns also the monoisotopic mass and the average mass of given chemical component.
Usage
1
useBRAIN(aC, stopOption = "nrPeaks", nrPeaks, coverage, abundantEstim)
Arguments
aC
List with fields C, H, N, O, S of integer non-negative values (if any field is ommited, then its value is set to 0).
stopOption
one of the following strings: "nrPeaks" (default), "coverage", "abundantEstim"
nrPeaks
Integer indicating the number of consecutive isotopic variants to be calculated,
starting from the monoisotopic one. This value can always be provided, even if <stop.option>
is not a default setting. In the latter case it is a hard stopping criterion.
coverage
Scalar indicating the value of the cumulative aggregated distribution. The
calculations will be stopped after reaching this value.
abundantEstim
Integer indicating the number of consecutive isotopic variants to be
calculated, starting from one after the most abundant one. All consecutive isotopic variants before the
most abundant peak are also returned.
Details
Function uses recursive formulae based on algebraic Newton-Girard identity (see [Clae]).
Value
Named list with the following fields:
isoDistrProbabilities of aggregated isotopic variants (numeric vector)
massesAggregated masses for isotopic variants (numeric vector)
monoisotopicMassMonoisotopic mass (numeric)
avgMassAverage mass - weighted average of the isotopic variants contributing to the most abundant aggregated variant (numeric)
Note
Remember that the isotopic variants starts from monoisotopic one. For large chemical molecules, first masses may have very low abundances. So sufficient number of peaks should be calculated to reach most abundant isotopic variant.
If only isotopic probabilities are needed, then the function calculateIsotopicProbabilities should be used.
Author(s)
Piotr Dittwald <piotr.dittwald@mimuw.edu.pl>
References
[Clae] Claesen J., Dittwald P., Burzykowski T. and Valkenborg D. An efficient method to calculate
the aggregated isotopic distribution and exact center-masses. JASMS, 2012, doi:10.1007/s13361-011-0326-2
See Also
calculateIsotopicProbabilities
Examples
1
2
3
BRAIN documentation built on Nov. 8, 2020, 5:14 p.m.
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Description Usage Arguments Details Value Note Author(s) References See Also Examples
View source: R/iso.and.masses.R
Description
Function computing probabilities of isotopic variants and their aggregated masses for chemical components composed of carbon, hydrogen, oxygen, nitrogen and sulfur (e.g. peptides). Additionally the function returns also the monoisotopic mass and the average mass of given chemical component.
Usage
1 | useBRAIN(aC, stopOption = "nrPeaks", nrPeaks, coverage, abundantEstim)
|
Arguments
aC |
List with fields C, H, N, O, S of integer non-negative values (if any field is ommited, then its value is set to 0). |
stopOption |
one of the following strings: "nrPeaks" (default), "coverage", "abundantEstim" |
nrPeaks |
Integer indicating the number of consecutive isotopic variants to be calculated, starting from the monoisotopic one. This value can always be provided, even if <stop.option> is not a default setting. In the latter case it is a hard stopping criterion. |
coverage |
Scalar indicating the value of the cumulative aggregated distribution. The calculations will be stopped after reaching this value. |
abundantEstim |
Integer indicating the number of consecutive isotopic variants to be calculated, starting from one after the most abundant one. All consecutive isotopic variants before the most abundant peak are also returned. |
Details
Function uses recursive formulae based on algebraic Newton-Girard identity (see [Clae]).
Value
Named list with the following fields:
isoDistrProbabilities of aggregated isotopic variants (numeric vector)
massesAggregated masses for isotopic variants (numeric vector)
monoisotopicMassMonoisotopic mass (numeric)
avgMassAverage mass - weighted average of the isotopic variants contributing to the most abundant aggregated variant (numeric)
Note
Remember that the isotopic variants starts from monoisotopic one. For large chemical molecules, first masses may have very low abundances. So sufficient number of peaks should be calculated to reach most abundant isotopic variant.
If only isotopic probabilities are needed, then the function calculateIsotopicProbabilities should be used.
Author(s)
Piotr Dittwald <piotr.dittwald@mimuw.edu.pl>
References
[Clae] Claesen J., Dittwald P., Burzykowski T. and Valkenborg D. An efficient method to calculate the aggregated isotopic distribution and exact center-masses. JASMS, 2012, doi:10.1007/s13361-011-0326-2
See Also
calculateIsotopicProbabilities
Examples
1 2 3 |
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