idCerPneg: Ceramides phosphate (CerP) annotation for ESI-
In LipidMS: Lipid Annotation for LC-MS/MS DDA or DIA Data
View source: R/idFunctionsNeg.R
idCerPneg R Documentation
Ceramides phosphate (CerP) annotation for ESI-
Description
CerP identification based on fragmentation patterns for LC-MS/MS DIA or DDA
data acquired in negative mode.
Usage
idCerPneg(
msobject,
ppm_precursor = 5,
ppm_products = 10,
rttol = 3,
rt,
adducts = c("M-H"),
clfrags = c(78.9585, 96.9691),
clrequired = c(F, F),
ftype = c("F", "F"),
chainfrags_sn1 = c("sphP_M-H"),
chainfrags_sn2 = c("fa_Mn-1.9918", ""),
intrules = c(),
rates = c(),
intrequired = c(),
coelCutoff = 0.8,
dbs,
verbose = TRUE
)
Arguments
msobject
an msobject returned by dataProcessing.
ppm_precursor
mass tolerance for precursor ions. By default, 5 ppm.
ppm_products
mass tolerance for product ions. By default, 10 ppm.
rttol
total rt window for coelution between precursor and product
ions. By default, 3 seconds.
rt
rt range where the function will look for candidates. By default,
it will search within all RT range in MS1.
adducts
expected adducts for CerP in ESI-. Adducts allowed can
be modified in adductsTable (dbs argument).
clfrags
vector containing the expected fragments for a given lipid
class. See checkClass for details.
clrequired
logical vector indicating if each class fragment is
required or not. If any of them is required, at least one of them must be
present within the coeluting fragments. See checkClass for details.
ftype
character vector indicating the type of fragments in clfrags.
It can be: "F" (fragment), "NL" (neutral loss) or "BB" (building block).
See checkClass for details.
chainfrags_sn1
character vector containing the fragmentation rules for
the chain fragments in sn1 position. See chainFrags for details.
chainfrags_sn2
character vector containing the fragmentation rules for
the chain fragments in sn2 position. See chainFrags for details. If
empty, it will be estimated based on the difference between precursors and
sn1 chains.
intrules
character vector specifying the fragments to compare. See
checkIntensityRules.
rates
character vector with the expected ratesbetween fragments given
as a string (e.g. "3/1"). See checkIntensityRules.
intrequired
logical vector indicating if any of the rules is required.
If not, at least one must be verified to confirm the structure.
coelCutoff
coelution score threshold between parent and fragment ions.
Only applied if rawData info is supplied. By default, 0.8.
dbs
list of data bases required for annotation. By default, dbs
contains the required data frames based on the default fragmentation rules.
If these rules are modified, dbs may need to be supplied. See createLipidDB
and assignDB.
verbose
print information messages.
Details
idCerPneg function involves 5 steps. 1) FullMS-based
identification of candidate CerP as M-H. 2) Search of CerP class
fragments: 78.9585 and 96.9691. 3) Search of specific fragments that inform
about the sphingoid base (SphP as M-H resulting from the loss of the FA chain)
and the FA chain (FA as M-H but with a N instead of an O, what results in a
mass difference of 1.9918 from the exact mass of the FA, or the difference
between precursor and sn1 chain fragments). 4) Look for possible chains
structure based on the combination of chain fragments. 5) Check intensity
rules to confirm chains position. In this case, there are no intensity rules
by default.
Results data frame shows: ID, lipid class, CDB (total number
of carbons and double bounds), FA composition (specific chains composition if
it has been confirmed), mz, RT (in seconds), I (intensity, which comes
directly from de input), Adducts, ppm (mz error), confidenceLevel (Subclass,
FA level, where chains are known but not their positions, or FA position
level) and Score (parent-fragment coelution score mean in DIA data or relative
sum intensity in DDA of all fragments used for the identification).
Value
annotated msobject (list with several elements). The results element
is a data frame that shows: ID, lipid class, CDB (total number of carbons
and double bounds), FA composition (specific chains composition if it has
been confirmed), mz, RT (in seconds), I (intensity), Adducts, ppm (mz error),
confidenceLevel (Subclass, FA level, where chains are known but not their
positions, or FA position level), peakID, and Score (parent-fragment coelution
score mean in DIA data or relative sum intensity in DDA of all fragments used
for the identification).
Note
This function has been writen based on fragmentation patterns
observed for three different platforms (QTOF 6550 from Agilent, Synapt G2-Si
from Waters and Q-exactive from Thermo), but it may need to be customized for
other platforms or acquisition settings.
Author(s)
M Isabel Alcoriza-Balaguer <maialba@alumni.uv.es>
Examples
## Not run:
msobject <- idCerPneg(msobject)
## End(Not run)
LipidMS documentation built on March 18, 2022, 7:14 p.m.
R Package Documentation
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
View source: R/idFunctionsNeg.R
| idCerPneg | R Documentation |
Ceramides phosphate (CerP) annotation for ESI-
Description
CerP identification based on fragmentation patterns for LC-MS/MS DIA or DDA data acquired in negative mode.
Usage
idCerPneg(
msobject,
ppm_precursor = 5,
ppm_products = 10,
rttol = 3,
rt,
adducts = c("M-H"),
clfrags = c(78.9585, 96.9691),
clrequired = c(F, F),
ftype = c("F", "F"),
chainfrags_sn1 = c("sphP_M-H"),
chainfrags_sn2 = c("fa_Mn-1.9918", ""),
intrules = c(),
rates = c(),
intrequired = c(),
coelCutoff = 0.8,
dbs,
verbose = TRUE
)
Arguments
msobject |
an msobject returned by dataProcessing. |
ppm_precursor |
mass tolerance for precursor ions. By default, 5 ppm. |
ppm_products |
mass tolerance for product ions. By default, 10 ppm. |
rttol |
total rt window for coelution between precursor and product ions. By default, 3 seconds. |
rt |
rt range where the function will look for candidates. By default, it will search within all RT range in MS1. |
adducts |
expected adducts for CerP in ESI-. Adducts allowed can be modified in adductsTable (dbs argument). |
clfrags |
vector containing the expected fragments for a given lipid class. See checkClass for details. |
clrequired |
logical vector indicating if each class fragment is required or not. If any of them is required, at least one of them must be present within the coeluting fragments. See checkClass for details. |
ftype |
character vector indicating the type of fragments in clfrags. It can be: "F" (fragment), "NL" (neutral loss) or "BB" (building block). See checkClass for details. |
chainfrags_sn1 |
character vector containing the fragmentation rules for the chain fragments in sn1 position. See chainFrags for details. |
chainfrags_sn2 |
character vector containing the fragmentation rules for the chain fragments in sn2 position. See chainFrags for details. If empty, it will be estimated based on the difference between precursors and sn1 chains. |
intrules |
character vector specifying the fragments to compare. See checkIntensityRules. |
rates |
character vector with the expected ratesbetween fragments given as a string (e.g. "3/1"). See checkIntensityRules. |
intrequired |
logical vector indicating if any of the rules is required. If not, at least one must be verified to confirm the structure. |
coelCutoff |
coelution score threshold between parent and fragment ions. Only applied if rawData info is supplied. By default, 0.8. |
dbs |
list of data bases required for annotation. By default, dbs contains the required data frames based on the default fragmentation rules. If these rules are modified, dbs may need to be supplied. See createLipidDB and assignDB. |
verbose |
print information messages. |
Details
idCerPneg function involves 5 steps. 1) FullMS-based
identification of candidate CerP as M-H. 2) Search of CerP class
fragments: 78.9585 and 96.9691. 3) Search of specific fragments that inform
about the sphingoid base (SphP as M-H resulting from the loss of the FA chain)
and the FA chain (FA as M-H but with a N instead of an O, what results in a
mass difference of 1.9918 from the exact mass of the FA, or the difference
between precursor and sn1 chain fragments). 4) Look for possible chains
structure based on the combination of chain fragments. 5) Check intensity
rules to confirm chains position. In this case, there are no intensity rules
by default.
Results data frame shows: ID, lipid class, CDB (total number of carbons and double bounds), FA composition (specific chains composition if it has been confirmed), mz, RT (in seconds), I (intensity, which comes directly from de input), Adducts, ppm (mz error), confidenceLevel (Subclass, FA level, where chains are known but not their positions, or FA position level) and Score (parent-fragment coelution score mean in DIA data or relative sum intensity in DDA of all fragments used for the identification).
Value
annotated msobject (list with several elements). The results element is a data frame that shows: ID, lipid class, CDB (total number of carbons and double bounds), FA composition (specific chains composition if it has been confirmed), mz, RT (in seconds), I (intensity), Adducts, ppm (mz error), confidenceLevel (Subclass, FA level, where chains are known but not their positions, or FA position level), peakID, and Score (parent-fragment coelution score mean in DIA data or relative sum intensity in DDA of all fragments used for the identification).
Note
This function has been writen based on fragmentation patterns observed for three different platforms (QTOF 6550 from Agilent, Synapt G2-Si from Waters and Q-exactive from Thermo), but it may need to be customized for other platforms or acquisition settings.
Author(s)
M Isabel Alcoriza-Balaguer <maialba@alumni.uv.es>
Examples
## Not run: msobject <- idCerPneg(msobject) ## End(Not run)
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