findPeaks.centWave-methods: Feature detection for high resolution LC/MS data
In xiaodfeng/DynamicXCMS: LC-MS and GC-MS Data Analysis
findPeaks.centWave-methods R Documentation
Feature detection for high resolution LC/MS data
Description
Peak density and wavelet based feature detection for high resolution LC/MS data in centroid mode
Arguments
object
xcmsSet object
ppm
maxmial tolerated m/z deviation in consecutive scans, in ppm (parts per million)
peakwidth
Chromatographic peak width, given as range (min,max) in seconds
snthresh
signal to noise ratio cutoff, definition see below.
prefilter
prefilter=c(k,I). Prefilter step for the first phase. Mass traces are only retained if they contain at least k peaks with intensity >= I.
mzCenterFun
Function to calculate the m/z center of the feature: wMean intensity weighted mean of the feature m/z values, mean mean of the feature m/z values, apex use m/z value at peak apex,
wMeanApex3 intensity weighted mean of the m/z value at peak apex and the m/z value left and right of it, meanApex3 mean of the m/z value at peak apex and the m/z value left and right of it.
integrate
Integration method. If =1 peak limits are found through descent on the mexican hat filtered data, if =2 the descent is done on the real data. Method 2 is very accurate but prone to noise, while method 1 is more robust to noise but less exact.
mzdiff
minimum difference in m/z for peaks with overlapping retention
times, can be negative to allow overlap
fitgauss
logical, if TRUE a Gaussian is fitted to each peak
scanrange
scan range to process
noise
optional argument which is useful for data that was centroided without any intensity threshold,
centroids with intensity < noise are omitted from ROI detection
sleep
number of seconds to pause between plotting peak finding cycles
verbose.columns
logical, if TRUE additional peak meta data columns are returned
ROI.list
A optional list of ROIs that represents detected mass traces (ROIs). If this list is empty (default) then centWave detects the mass trace ROIs,
otherwise this step is skipped and the supplied ROIs are used in the peak detection phase. Each ROI object in the list has the following slots:
scmin start scan index,
scmax end scan index,
mzmin minimum m/z,
mzmax maximum m/z,
length number of scans,
intensity summed intensity.
firstBaselineCheck
logical, if TRUE continuous data within ROI is checked to be above 1st baseline
roiScales
numeric, optional vector of scales for each ROI in ROI.list to be used for the centWave-wavelets
Details
This algorithm is most suitable for high resolution LC/{TOF,OrbiTrap,FTICR}-MS data in centroid mode. In the first phase of the method mass traces (characterised as regions with less than ppm m/z deviation in consecutive scans) in the LC/MS map are located.
In the second phase these mass traces are further analysed.
Continuous wavelet transform (CWT) is used to locate chromatographic peaks on different scales.
Value
A matrix with columns:
mz
weighted (by intensity) mean of peak m/z across scans
mzmin
m/z peak minimum
mzmax
m/z peak maximum
rt
retention time of peak midpoint
rtmin
leading edge of peak retention time
rtmax
trailing edge of peak retention time
into
integrated peak intensity
intb
baseline corrected integrated peak intensity
maxo
maximum peak intensity
sn
Signal/Noise ratio, defined as (maxo - baseline)/sd, where
maxo is the maximum peak intensity,
baseline the estimated baseline value and
sd the standard deviation of local chromatographic noise.
egauss
RMSE of Gaussian fit
if verbose.columns is TRUE additionally :
mu
Gaussian parameter mu
sigma
Gaussian parameter sigma
h
Gaussian parameter h
f
Region number of m/z ROI where the peak was localised
dppm
m/z deviation of mass trace across scans in ppm
scale
Scale on which the peak was localised
scpos
Peak position found by wavelet analysis
scmin
Left peak limit found by wavelet analysis (scan number)
scmax
Right peak limit found by wavelet analysis (scan number)
Methods
- object = "xcmsRaw"
-
findPeaks.centWave(object, ppm=25, peakwidth=c(20,50), snthresh=10,
prefilter=c(3,100), mzCenterFun="wMean", integrate=1, mzdiff=-0.001, fitgauss=FALSE,
scanrange= numeric(), noise=0, sleep=0, verbose.columns=FALSE, ROI.list=list()),
firstBaselineCheck=TRUE, roiScales=NULL
Author(s)
Ralf Tautenhahn
References
Ralf Tautenhahn, Christoph B\"ottcher, and Steffen Neumann
"Highly sensitive feature detection for high resolution LC/MS"
BMC Bioinformatics 2008, 9:504
See Also
centWave for the new user interface.
findPeaks-methods
xcmsRaw-class
xiaodfeng/DynamicXCMS documentation built on Aug. 6, 2023, 3:02 p.m.
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| findPeaks.centWave-methods | R Documentation |
Feature detection for high resolution LC/MS data
Description
Peak density and wavelet based feature detection for high resolution LC/MS data in centroid mode
Arguments
object |
|
ppm |
maxmial tolerated m/z deviation in consecutive scans, in ppm (parts per million) |
peakwidth |
Chromatographic peak width, given as range (min,max) in seconds |
snthresh |
signal to noise ratio cutoff, definition see below. |
prefilter |
|
mzCenterFun |
Function to calculate the m/z center of the feature: |
integrate |
Integration method. If |
mzdiff |
minimum difference in m/z for peaks with overlapping retention times, can be negative to allow overlap |
fitgauss |
logical, if TRUE a Gaussian is fitted to each peak |
scanrange |
scan range to process |
noise |
optional argument which is useful for data that was centroided without any intensity threshold,
centroids with intensity < |
sleep |
number of seconds to pause between plotting peak finding cycles |
verbose.columns |
logical, if TRUE additional peak meta data columns are returned |
ROI.list |
A optional list of ROIs that represents detected mass traces (ROIs). If this list is empty (default) then centWave detects the mass trace ROIs,
otherwise this step is skipped and the supplied ROIs are used in the peak detection phase. Each ROI object in the list has the following slots:
|
firstBaselineCheck |
logical, if TRUE continuous data within ROI is checked to be above 1st baseline |
roiScales |
numeric, optional vector of scales for each ROI in |
Details
This algorithm is most suitable for high resolution LC/{TOF,OrbiTrap,FTICR}-MS data in centroid mode. In the first phase of the method mass traces (characterised as regions with less than ppm m/z deviation in consecutive scans) in the LC/MS map are located.
In the second phase these mass traces are further analysed.
Continuous wavelet transform (CWT) is used to locate chromatographic peaks on different scales.
Value
A matrix with columns:
mz |
weighted (by intensity) mean of peak m/z across scans |
mzmin |
m/z peak minimum |
mzmax |
m/z peak maximum |
rt |
retention time of peak midpoint |
rtmin |
leading edge of peak retention time |
rtmax |
trailing edge of peak retention time |
into |
integrated peak intensity |
intb |
baseline corrected integrated peak intensity |
maxo |
maximum peak intensity |
sn |
Signal/Noise ratio, defined as |
egauss |
RMSE of Gaussian fit |
|
if |
mu |
Gaussian parameter mu |
sigma |
Gaussian parameter sigma |
h |
Gaussian parameter h |
f |
Region number of m/z ROI where the peak was localised |
dppm |
m/z deviation of mass trace across scans in ppm |
scale |
Scale on which the peak was localised |
scpos |
Peak position found by wavelet analysis |
scmin |
Left peak limit found by wavelet analysis (scan number) |
scmax |
Right peak limit found by wavelet analysis (scan number) |
Methods
- object = "xcmsRaw"
-
findPeaks.centWave(object, ppm=25, peakwidth=c(20,50), snthresh=10, prefilter=c(3,100), mzCenterFun="wMean", integrate=1, mzdiff=-0.001, fitgauss=FALSE, scanrange= numeric(), noise=0, sleep=0, verbose.columns=FALSE, ROI.list=list()), firstBaselineCheck=TRUE, roiScales=NULL
Author(s)
Ralf Tautenhahn
References
Ralf Tautenhahn, Christoph B\"ottcher, and Steffen Neumann "Highly sensitive feature detection for high resolution LC/MS" BMC Bioinformatics 2008, 9:504
See Also
centWave for the new user interface.
findPeaks-methods
xcmsRaw-class
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