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inst/doc/MetNet.R
In MetNet: Inferring metabolic networks from untargeted high-resolution mass spectrometry data
## ----style, echo = FALSE, results = 'asis'------------------------------------
BiocStyle::markdown()
## ----env, include=FALSE, echo=FALSE, cache=FALSE------------------------------
library("knitr")
opts_chunk$set(stop_on_error = 1L)
suppressPackageStartupMessages(library("MetNet"))
## ----install, eval=FALSE------------------------------------------------------
# install.packages("BiocManager")
# BiocManager::install("MetNet")
## ----load_MetNet,eval=TRUE----------------------------------------------------
library(MetNet)
## ----data,eval=TRUE,echo=TRUE-------------------------------------------------
data("x_test", package = "MetNet")
x_test <- as.matrix(x_test)
## ----transformation_example,echo=TRUE,eval=TRUE-------------------------------
## define the search space for biochemical transformation
transformations <- rbind(
c("Hydroxylation (-H)", "O", 15.9949146221, "-"),
c("Malonyl group (-H2O)", "C3H2O3", 86.0003939305, "+"),
c("D-ribose (-H2O) (ribosylation)", "C5H8O4", 132.0422587452, "-"),
c("C6H10O6", "C6H10O6", 178.0477380536, "-"),
c("Rhamnose (-H20)", "C6H10O4", 146.057910, "-"),
c("Monosaccharide (-H2O)", "C6H10O5", 162.0528234315, "-"),
c("Disaccharide (-H2O) #1", "C12H20O10", 324.105649, "-"),
c("Disaccharide (-H2O) #2", "C12H20O11", 340.1005614851, "-"),
c("Trisaccharide (-H2O)", "C18H30O15", 486.1584702945, "-"),
c("Glucuronic acid (-H2O)", "C6H8O6", 176.0320879894, "?"),
c("coumaroyl (-H2O)", "C9H6O2", 146.0367794368, "?"),
c("feruloyl (-H2O)", "C9H6O2OCH2", 176.0473441231, "?"),
c("sinapoyl (-H2O)", "C9H6O2OCH2OCH2", 206.0579088094, "?"),
c("putrescine to spermidine (+C3H7N)", "C3H7N", 57.0578492299, "?"))
## convert to data frame
transformations <- data.frame(
group = transformations[, 1],
formula = transformations[, 2],
mass = as.numeric(transformations[, 3]),
rt = transformations[, 4])
## ----structure,eval=TRUE,echo=TRUE--------------------------------------------
struct_adj <- structural(x = x_test, transformation = transformations, ppm = 10)
## ----rt_correction,eval=TRUE,echo=TRUE----------------------------------------
struct_adj <- rtCorrection(structural = struct_adj,
x = x_test, transformation = transformations)
## ----statistical,eval=TRUE,echo=TRUE------------------------------------------
x_int <- x_test[, 3:dim(x_test)[2]]
x_int <- as.matrix(x_int)
stat_adj_l <- statistical(x_int, model = c("pearson", "spearman"))
## ----threshold,eval=TRUE,echo=TRUE--------------------------------------------
## type = "threshold"
args_thr <- list("pearson" = 0.95, "spearman" = 0.95, threshold = 1)
stat_adj_thr <- threshold(statistical = stat_adj_l, type = "threshold",
args = args_thr)
## type = "top1"
args_top <- list(n = 40)
stat_adj_top1 <- threshold(statistical = stat_adj_l, type = "top2",
args = args_top)
## type = "top2"
stat_adj_top2 <- threshold(statistical = stat_adj_l, type = "top2",
args = args_top)
## type = "mean"
stat_adj_mean <- threshold(statistical = stat_adj_l, type = "mean",
args = args_top)
## ----combine,eval=TRUE,echo=TRUE----------------------------------------------
cons_adj <- combine(structural = struct_adj, statistical = stat_adj_mean)
## ----visualisation,eval=TRUE,echo=TRUE,fig.cap='** _Ab initio_ network inferred from structural and quantitative mass spectrometry data.** Vertices are connected that are separated by given metabolic transformation and statistical association.'----
g <- igraph::graph_from_adjacency_matrix(cons_adj[[1]], mode = "undirected")
plot(g, edge.width = 5, vertex.label.cex = 0.5, edge.color = "grey")
## ----session,eval=TRUE,echo=FALSE---------------------------------------------
sessionInfo()
## ----ttransformations,eval=TRUE,echo=TRUE-------------------------------------
transformations <- rbind(
c("Alanine", "C3H5NO", "71.0371137878"),
c("Arginine", "C6H12N4O", "156.1011110281"),
c("Asparagine", "C4H6N2O2", "114.0429274472"),
c("Guanosine 5-diphosphate (-H2O)", "C10H13N5O10P2", "425.0137646843"),
c("Guanosine 5-monophosphate (-H2O)", "C10H12N5O7P", "345.0474342759"),
c("Guanine (-H)", "C5H4N5O", "150.0415847765"),
c("Aspartic acid", "C4H5NO3", "115.0269430320"),
c("Guanosine (-H2O)", "C10H11N5O4", "265.0811038675"),
c("Cysteine", "C3H5NOS", "103.0091844778"),
c("Deoxythymidine 5'-diphosphate (-H2O)", "C10H14N2O10P2", "384.01236770"),
c("Cystine", "C6H10N2O3S2", "222.0132835777"),
c("Thymidine (-H2O)", "C10H12N2O4", "224.0797068840"),
c("Glutamic acid", "C5H7NO3", "129.0425930962"),
c("Thymine (-H)", "C5H5N2O2", "125.0351024151"),
c("Glutamine", "C5H8N2O2", "128.0585775114"),
c("Thymidine 5'-monophosphate (-H2O)", "C10H13N2O7P", "304.0460372924"),
c("Glycine", "C2H3NO", "57.0214637236"),
c("Uridine 5'-diphosphate (-H2O)", "C9H12N2O11P2", "385.9916322587"),
c("Histidine", "C6H7N3O", "137.0589118624"),
c("Uridine 5'-monophosphate (-H2O)", "C9H11N2O8P", "306.0253018503"),
c("Isoleucine", "C6H11NO", "113.0840639804"),
c("Uracil (-H)", "C4H3N2O2", "111.0194523509"),
c("Leucine", "C6H11NO", "113.0840639804"),
c("Uridine (-H2O)", "C9H10N2O5", "226.0589714419"),
c("Lysine", "C6H12N2O", "128.0949630177"),
c("Acetylation (-H)", "C2H3O2", "59.0133043405"),
c("Methionine", "C5H9NOS", "131.0404846062"),
c("Acetylation (-H2O)", "C2H2O", "42.0105646863"),
c("Phenylalanine", "C9H9NO", "147.0684139162"),
c("C2H2", "C2H2", "26.0156500642"),
c("Proline", "C5H7NO", "97.0527638520"),
c("Carboxylation", "CO2", "43.9898292442"),
c("Serine", "C3H5NO2", "87.0320284099"),
c("CHO2", "CHO2", "44.9976542763"),
c("Threonine", "C4H7NO2", "101.0476784741"),
c("Condensation/dehydration", "H2O", "18.0105646863"),
c("Tryptophan", "C11H10N2O", "186.0793129535"),
c("Diphosphate", "H3O6P2", "160.9404858489"),
c("Tyrosine", "C9H9NO2", "163.0633285383"),
c("Ethyl addition (-H2O)", "C2H4", "28.0313001284"),
c("Valine", "C5H9NO", "99.0684139162"),
c("Formic Acid (-H2O)", "CO", "27.9949146221"),
c("Acetotacetate (-H2O)", "C4H4O2", "84.0211293726"),
c("Glyoxylate (-H2O)", "C2O2", "55.9898292442"),
c("Acetone (-H)", "C3H5O", "57.0340397826"),
c("Hydrogenation/dehydrogenation", "H2", "2.0156500642"),
c("Adenylate (-H2O)", "C10H12N5O6P", "329.0525196538"),
c("Hydroxylation (-H)", "O", "15.9949146221"),
c("Biotinyl (-H)", "C10H15N2O3S", "243.0803380482"),
c("Inorganic phosphate", "P", "30.9737615100"),
c("Biotinyl (-H2O)", "C10H14N2O2S", "226.0775983940"),
c("Ketol group (-H2O)", "C2H2O", "42.0105646863"),
c("Carbamoyl P transfer (-H2PO4)", "CH2ON", "44.0136386915"),
c("Methanol (-H2O)", "CH2", "14.0156500642"),
c("Co-enzyme A (-H)", "C21H34N7O16P3S", "765.0995583014"),
c("Phosphate", "HPO3", "79.9663304084"),
c("Co-enzyme A (-H2O)", "C21H33N7O15P3S", "748.0968186472"),
c("Primary amine", "NH2", "16.0187240694"),
c("Glutathione (-H2O)", "C10H15N3O5S", "289.0732412976"),
c("Pyrophosphate", "PP", "61.9475230200"),
c("Isoprene addition (-H)", "C5H7", "67.0547752247"),
c("Secondary amine", "NH", "15.0108990373"),
c("Malonyl group (-H2O)", "C3H2O3", "86.0003939305"),
c("Sulfate (-H2O)", "SO3", "79.9568145563"),
c("Palmitoylation (-H2O)", "C16H30O", "238.2296655851"),
c("Tertiary amine", "N", "14.0030740052"),
c("Pyridoxal phosphate (-H2O)", "C8H8NO5P", "229.0140088825"),
c("C6H10O5", "C6H10O5", "162.0528234315"),
c("Urea addition (-H)", "CH3N2O", "59.0245377288"),
c("C6H10O6", "C6H10O6", "178.0477380536"),
c("Adenine (-H)", "C5H4N5", "134.0466701544"),
c("D-ribose (-H2O) (ribosylation)", "C5H8O4", "132.0422587452"),
c("Adenosine (-H2O)", "C10H11N5O3", "249.0861892454"),
c("Disaccharide (-H2O) #1", "C12H20O10", "324.105649"),
c("Disaccharide (-H2O) #2", "C12H20O11", "340.1005614851"),
c("Adenosine 5'-diphosphate (-H2O)", "C10H13N5O9P2", "409.0188500622"),
c("Glucose-N-phosphate (-H2O)", "C6H11O8P", "242.0191538399"),
c("Adenosine 5'-monophosphate (-H2O)", "C10H12N5O6P", "329.0525196538"),
c("Glucuronic acid (-H2O)", "C6H8O6", "176.0320879894"),
c("Cytidine 5'-diphosphate (-H2O)", "C9H13N3O10P2", "385.0076166739"),
c("Monosaccharide (-H2O)", "C6H10O5", "162.0528234315"),
c("Cytidine 5'-monophsophate (-H2O)", "C9H12N3O7P", "305.0412862655"),
c("Trisaccharide (-H2O)", "C18H30O15", "486.1584702945"),
c("Cytosine (-H)", "C4H4N3O", "110.0354367661"))
transformations <- data.frame(name = transformations[, 1],
formula = transformations[, 2],
mass = as.numeric(transformations[, 3]))
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MetNet documentation built on Nov. 8, 2020, 7:34 p.m.
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## ----style, echo = FALSE, results = 'asis'------------------------------------
BiocStyle::markdown()
## ----env, include=FALSE, echo=FALSE, cache=FALSE------------------------------
library("knitr")
opts_chunk$set(stop_on_error = 1L)
suppressPackageStartupMessages(library("MetNet"))
## ----install, eval=FALSE------------------------------------------------------
# install.packages("BiocManager")
# BiocManager::install("MetNet")
## ----load_MetNet,eval=TRUE----------------------------------------------------
library(MetNet)
## ----data,eval=TRUE,echo=TRUE-------------------------------------------------
data("x_test", package = "MetNet")
x_test <- as.matrix(x_test)
## ----transformation_example,echo=TRUE,eval=TRUE-------------------------------
## define the search space for biochemical transformation
transformations <- rbind(
c("Hydroxylation (-H)", "O", 15.9949146221, "-"),
c("Malonyl group (-H2O)", "C3H2O3", 86.0003939305, "+"),
c("D-ribose (-H2O) (ribosylation)", "C5H8O4", 132.0422587452, "-"),
c("C6H10O6", "C6H10O6", 178.0477380536, "-"),
c("Rhamnose (-H20)", "C6H10O4", 146.057910, "-"),
c("Monosaccharide (-H2O)", "C6H10O5", 162.0528234315, "-"),
c("Disaccharide (-H2O) #1", "C12H20O10", 324.105649, "-"),
c("Disaccharide (-H2O) #2", "C12H20O11", 340.1005614851, "-"),
c("Trisaccharide (-H2O)", "C18H30O15", 486.1584702945, "-"),
c("Glucuronic acid (-H2O)", "C6H8O6", 176.0320879894, "?"),
c("coumaroyl (-H2O)", "C9H6O2", 146.0367794368, "?"),
c("feruloyl (-H2O)", "C9H6O2OCH2", 176.0473441231, "?"),
c("sinapoyl (-H2O)", "C9H6O2OCH2OCH2", 206.0579088094, "?"),
c("putrescine to spermidine (+C3H7N)", "C3H7N", 57.0578492299, "?"))
## convert to data frame
transformations <- data.frame(
group = transformations[, 1],
formula = transformations[, 2],
mass = as.numeric(transformations[, 3]),
rt = transformations[, 4])
## ----structure,eval=TRUE,echo=TRUE--------------------------------------------
struct_adj <- structural(x = x_test, transformation = transformations, ppm = 10)
## ----rt_correction,eval=TRUE,echo=TRUE----------------------------------------
struct_adj <- rtCorrection(structural = struct_adj,
x = x_test, transformation = transformations)
## ----statistical,eval=TRUE,echo=TRUE------------------------------------------
x_int <- x_test[, 3:dim(x_test)[2]]
x_int <- as.matrix(x_int)
stat_adj_l <- statistical(x_int, model = c("pearson", "spearman"))
## ----threshold,eval=TRUE,echo=TRUE--------------------------------------------
## type = "threshold"
args_thr <- list("pearson" = 0.95, "spearman" = 0.95, threshold = 1)
stat_adj_thr <- threshold(statistical = stat_adj_l, type = "threshold",
args = args_thr)
## type = "top1"
args_top <- list(n = 40)
stat_adj_top1 <- threshold(statistical = stat_adj_l, type = "top2",
args = args_top)
## type = "top2"
stat_adj_top2 <- threshold(statistical = stat_adj_l, type = "top2",
args = args_top)
## type = "mean"
stat_adj_mean <- threshold(statistical = stat_adj_l, type = "mean",
args = args_top)
## ----combine,eval=TRUE,echo=TRUE----------------------------------------------
cons_adj <- combine(structural = struct_adj, statistical = stat_adj_mean)
## ----visualisation,eval=TRUE,echo=TRUE,fig.cap='** _Ab initio_ network inferred from structural and quantitative mass spectrometry data.** Vertices are connected that are separated by given metabolic transformation and statistical association.'----
g <- igraph::graph_from_adjacency_matrix(cons_adj[[1]], mode = "undirected")
plot(g, edge.width = 5, vertex.label.cex = 0.5, edge.color = "grey")
## ----session,eval=TRUE,echo=FALSE---------------------------------------------
sessionInfo()
## ----ttransformations,eval=TRUE,echo=TRUE-------------------------------------
transformations <- rbind(
c("Alanine", "C3H5NO", "71.0371137878"),
c("Arginine", "C6H12N4O", "156.1011110281"),
c("Asparagine", "C4H6N2O2", "114.0429274472"),
c("Guanosine 5-diphosphate (-H2O)", "C10H13N5O10P2", "425.0137646843"),
c("Guanosine 5-monophosphate (-H2O)", "C10H12N5O7P", "345.0474342759"),
c("Guanine (-H)", "C5H4N5O", "150.0415847765"),
c("Aspartic acid", "C4H5NO3", "115.0269430320"),
c("Guanosine (-H2O)", "C10H11N5O4", "265.0811038675"),
c("Cysteine", "C3H5NOS", "103.0091844778"),
c("Deoxythymidine 5'-diphosphate (-H2O)", "C10H14N2O10P2", "384.01236770"),
c("Cystine", "C6H10N2O3S2", "222.0132835777"),
c("Thymidine (-H2O)", "C10H12N2O4", "224.0797068840"),
c("Glutamic acid", "C5H7NO3", "129.0425930962"),
c("Thymine (-H)", "C5H5N2O2", "125.0351024151"),
c("Glutamine", "C5H8N2O2", "128.0585775114"),
c("Thymidine 5'-monophosphate (-H2O)", "C10H13N2O7P", "304.0460372924"),
c("Glycine", "C2H3NO", "57.0214637236"),
c("Uridine 5'-diphosphate (-H2O)", "C9H12N2O11P2", "385.9916322587"),
c("Histidine", "C6H7N3O", "137.0589118624"),
c("Uridine 5'-monophosphate (-H2O)", "C9H11N2O8P", "306.0253018503"),
c("Isoleucine", "C6H11NO", "113.0840639804"),
c("Uracil (-H)", "C4H3N2O2", "111.0194523509"),
c("Leucine", "C6H11NO", "113.0840639804"),
c("Uridine (-H2O)", "C9H10N2O5", "226.0589714419"),
c("Lysine", "C6H12N2O", "128.0949630177"),
c("Acetylation (-H)", "C2H3O2", "59.0133043405"),
c("Methionine", "C5H9NOS", "131.0404846062"),
c("Acetylation (-H2O)", "C2H2O", "42.0105646863"),
c("Phenylalanine", "C9H9NO", "147.0684139162"),
c("C2H2", "C2H2", "26.0156500642"),
c("Proline", "C5H7NO", "97.0527638520"),
c("Carboxylation", "CO2", "43.9898292442"),
c("Serine", "C3H5NO2", "87.0320284099"),
c("CHO2", "CHO2", "44.9976542763"),
c("Threonine", "C4H7NO2", "101.0476784741"),
c("Condensation/dehydration", "H2O", "18.0105646863"),
c("Tryptophan", "C11H10N2O", "186.0793129535"),
c("Diphosphate", "H3O6P2", "160.9404858489"),
c("Tyrosine", "C9H9NO2", "163.0633285383"),
c("Ethyl addition (-H2O)", "C2H4", "28.0313001284"),
c("Valine", "C5H9NO", "99.0684139162"),
c("Formic Acid (-H2O)", "CO", "27.9949146221"),
c("Acetotacetate (-H2O)", "C4H4O2", "84.0211293726"),
c("Glyoxylate (-H2O)", "C2O2", "55.9898292442"),
c("Acetone (-H)", "C3H5O", "57.0340397826"),
c("Hydrogenation/dehydrogenation", "H2", "2.0156500642"),
c("Adenylate (-H2O)", "C10H12N5O6P", "329.0525196538"),
c("Hydroxylation (-H)", "O", "15.9949146221"),
c("Biotinyl (-H)", "C10H15N2O3S", "243.0803380482"),
c("Inorganic phosphate", "P", "30.9737615100"),
c("Biotinyl (-H2O)", "C10H14N2O2S", "226.0775983940"),
c("Ketol group (-H2O)", "C2H2O", "42.0105646863"),
c("Carbamoyl P transfer (-H2PO4)", "CH2ON", "44.0136386915"),
c("Methanol (-H2O)", "CH2", "14.0156500642"),
c("Co-enzyme A (-H)", "C21H34N7O16P3S", "765.0995583014"),
c("Phosphate", "HPO3", "79.9663304084"),
c("Co-enzyme A (-H2O)", "C21H33N7O15P3S", "748.0968186472"),
c("Primary amine", "NH2", "16.0187240694"),
c("Glutathione (-H2O)", "C10H15N3O5S", "289.0732412976"),
c("Pyrophosphate", "PP", "61.9475230200"),
c("Isoprene addition (-H)", "C5H7", "67.0547752247"),
c("Secondary amine", "NH", "15.0108990373"),
c("Malonyl group (-H2O)", "C3H2O3", "86.0003939305"),
c("Sulfate (-H2O)", "SO3", "79.9568145563"),
c("Palmitoylation (-H2O)", "C16H30O", "238.2296655851"),
c("Tertiary amine", "N", "14.0030740052"),
c("Pyridoxal phosphate (-H2O)", "C8H8NO5P", "229.0140088825"),
c("C6H10O5", "C6H10O5", "162.0528234315"),
c("Urea addition (-H)", "CH3N2O", "59.0245377288"),
c("C6H10O6", "C6H10O6", "178.0477380536"),
c("Adenine (-H)", "C5H4N5", "134.0466701544"),
c("D-ribose (-H2O) (ribosylation)", "C5H8O4", "132.0422587452"),
c("Adenosine (-H2O)", "C10H11N5O3", "249.0861892454"),
c("Disaccharide (-H2O) #1", "C12H20O10", "324.105649"),
c("Disaccharide (-H2O) #2", "C12H20O11", "340.1005614851"),
c("Adenosine 5'-diphosphate (-H2O)", "C10H13N5O9P2", "409.0188500622"),
c("Glucose-N-phosphate (-H2O)", "C6H11O8P", "242.0191538399"),
c("Adenosine 5'-monophosphate (-H2O)", "C10H12N5O6P", "329.0525196538"),
c("Glucuronic acid (-H2O)", "C6H8O6", "176.0320879894"),
c("Cytidine 5'-diphosphate (-H2O)", "C9H13N3O10P2", "385.0076166739"),
c("Monosaccharide (-H2O)", "C6H10O5", "162.0528234315"),
c("Cytidine 5'-monophsophate (-H2O)", "C9H12N3O7P", "305.0412862655"),
c("Trisaccharide (-H2O)", "C18H30O15", "486.1584702945"),
c("Cytosine (-H)", "C4H4N3O", "110.0354367661"))
transformations <- data.frame(name = transformations[, 1],
formula = transformations[, 2],
mass = as.numeric(transformations[, 3]))
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