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MSbox

CRAN status CRAN downloads

Common mass spectrometry and statistical tools.

Installation

install.packages('MSbox')

Usage

## 1. Mass Spectrometry Widgets

1. Check element isotopes

examples:

E_iso('C') # element symbol, case insensitive
E_iso('Carbon') # element full name, case insensitive
E_iso('carBon') # element full name, case insensitive

2. Get extra molecular information based on compound name

If the queried information is not found for a compounds, it will assign “unknown” to that compound information:

describe('malic acid') # get formula by default
describe(c('malic acid', 'citric acid', 'tartaric acid'), representation = "smiles") # get smiles

3. Calculate monoisitopic mass

It accepts two types of inputs:

  1. Standards elemental composition, for instance, C7H6O, C7H6Na. Here each element is distinguished by Capital letters, i.e., sodium should be written as Na, not NA, na or nA here. Since there is only one sodium in the formula C7H7Na, you don’t have to write 1 after Na.

  2. User friendly elemental composition, for instance,c7H6O1, C7H6NA1. Here each element is distinguished by the number of the element, therefore, i.e, sodium can be written as Na, NA or na. But the number the sodium element should be clearlly stated in the formula even if there is only one sodium.

example for Standards elemental composition:

mass("C7H6O", caseSensitive = T)
mass(c("C7H6O", "C7H6Na"), caseSensitive = T) # vector input

example for User friendly elemental composition:

mass("c7h6O1")
mass(c("c7h6o1", "C7H6NA1")) # vector input

4. Calculate theoretical m/z value

It accepts two types of inputs:

  1. Standards elemental composition, for instance, C7H6O, C7H6Na. Here each element is distinguished by Capital letters, i.e., sodium should be written as Na, not NA, na or nA here. Since there is only one sodium in the formula C7H7Na, you don’t have to write 1 after Na.

  2. User friendly elemental composition, for instance,c7H6O1, C7H6NA1. Here each element is distinguished by the number of the element, therefore, i.e, sodium can be written as Na, NA or na. But the number the sodium element should be clearlly stated in the formula even if there is only one sodium.

example for Standards elemental composition

mz("C7H7O", 1, caseSensitive = T) # [M+H]+, positive ion mode, charge z = 1
mz("C7H5O", -1, caseSensitive = T) # [M-H]-, negative ion mode, charge z = 1
mz(c("C7H6O", "C7H6Na"), 1, caseSensitive = T) # vector input

example for User friendly elemental composition:

mz("c7h7O1") # [M+H]+, positive ion mode, charge z = 1
mz("c7H5o", -1) # [M-H]-, negative ion mode, charge z = 1
mz(c("c7h6o1", "C7H6NA1"), 1) # vector input

5. Calculate the mass accuracy of measured m/z ppm

example:

ppm(155.03383, 155.03388) # standard way
ppm(155.03383, .03388) # lazy input when the integer parts of m and t are the same
ppm(155.03383, .03388, lazy = F) # lazy input disabled
ppm(155.03384, mz('C7H7O4', z = 1)) # with ion formula

6. Calculate isotope labelled molecular mass

example

Iso_mass(F = 'C7H6O4', iso = '[13]C2[2]H3') # Two 13C and three 2H are labled. Case insensitive.

7. Calculate isotope labelled m/z

example

Iso_mz(F = 'C7H6O4', iso = '[13]C2[2]H3', z = 1) # Two 13C and three 2H are labled. Case insensitive.

8. Check if an m/z value originates from possible contaminant

examples

contam(33.0335, ppm = 10, mode = '+')
contam(44.998, ppm = 10, mode = '-')

9. Calculate common adduct ions in pos or neg ion mode

examples

adduct('C1H4', mode = '-') # case insensitive
adduct('C1H4', mode = '+') # case insensitive

10. Search m/z in HMDB or KEGG database

what(1034.556, mode = "+", ppm = 3) # single m/z value in HMDB database (default)
what(1034.556, mode = "+", ppm = 3, useDB = "KEGG") # single m/z value in KEGG database
what(c(133.014, 191.020), ppm = 10, mode = '-') # batch search

11. Search user’s own database based on accurate m/z or both accurate mass and RT

searchDB(DF, DB, ppm = 5, RT = 0.2, useRT = T) # with RT searching
searchDB(DF, DB, ppm = 5, RT = 0.2, useRT = F) # without RT searching, default

## Statistics

Basic statistics

  1. Find the samples names which contain the max ion intensity/peak area for each mass feature

  2. Calculate coefficient of variation (CV) for each mass feature among different sample group

  3. Calculate fold change (FC) for each mass feature among different sample group

  4. Calculate p-value for each mass feature among different sample group

  5. Calculate calculate VIP value for each mass feature among different sample group

You can use Dostat() function to get above statistical analysis.

# sample data
dat <- matrix(runif(2 * 300), ncol = 2, nrow = 300)
rownames(dat) <- 1:dim(dat)[1]
myGroup <- rep_len(LETTERS[1:3], 300)
# statistics
myResult <- doStat(dat, Group = myGroup)

6. PCA plot

# sample data
dat <- matrix(runif(2*300), ncol = 2, nrow = 300)
Group <- rep_len(LETTERS[1:3], 300)
# PCA
viewPCA(dat, Group = Group, interactive = T) # you can turn on/off interactive plot using interactive = T/F

7. View variations of TIC among samples

# sample data
dat <- matrix(runif(100*9), ncol = 100, nrow = 27)
myGroup <- rep_len(LETTERS[1:3], 27)
myBatch <- rep(1:3, each = 9, times = 1)
mySeq <- c(1:27)
# view TIC
viewTIC(dat, Group = myGroup, Batch = myBatch, resultBy = "Batch")

8. View volcano plot

9. Normalization

Normalization methods include: (1) LBME: linear baseline normalization based on mean values; (2) LBMD: linear baseline normalization based on median values; (3) PQN: probabilistic quotient normalization; (4) QT: quantile normalization; (5) TIC: total ion current normalization.

dat <- matrix(runif(100*9), ncol = 100, nrow = 10)
out <- doNormalization(dat, method = "PQN" )

These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.