xEnricherGenesAdv: Function to conduct enrichment analysis given a list of gene...
In XGR: Exploring Genomic Relations for Enhanced Interpretation Through Enrichment, Similarity, Network and Annotation Analysis
Description
Usage
Arguments
Value
Note
See Also
Examples
View source: R/xEnricherGenesAdv.r
Description
xEnricherGenesAdv is supposed to conduct enrichment analysis
given a list of gene sets and a list of ontologies. It is an advanced
version of xEnricherGenes, returning an object of the class
'ls_eTerm'.
Usage
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xEnricherGenesAdv(
list_vec,
background = NULL,
check.symbol.identity = F,
ontologies = NA,
size.range = c(10, 2000),
min.overlap = 5,
which.distance = NULL,
test = c("fisher", "hypergeo", "binomial"),
background.annotatable.only = NULL,
p.tail = c("one-tail", "two-tails"),
p.adjust.method = c("BH", "BY", "bonferroni", "holm", "hochberg",
"hommel"),
ontology.algorithm = c("none", "pc", "elim", "lea"),
elim.pvalue = 0.01,
lea.depth = 2,
path.mode = c("all_paths", "shortest_paths", "all_shortest_paths"),
true.path.rule = F,
verbose = F,
silent = FALSE,
plot = TRUE,
fdr.cutoff = 0.05,
displayBy = c("zscore", "fdr", "pvalue", "fc", "or"),
RData.location = "http://galahad.well.ox.ac.uk/bigdata",
guid = NULL
)
Arguments
list_vec
an input vector containing gene symbols. Alternatively
it can be a list of vectors, representing multiple groups of genes
background
a background vector containing gene symbols as the
test background. If NULL, by default all annotatable are used as
background
check.symbol.identity
logical to indicate whether to match the
input data/background via Synonyms for those unmatchable by official
gene symbols. By default, it sets to false
ontologies
the ontologies supported currently. Pre-built
ontology and annotation data are detailed in
xDefineOntology.
size.range
the minimum and maximum size of members of each term
in consideration. By default, it sets to a minimum of 10 but no more
than 2000
min.overlap
the minimum number of overlaps. Only those terms
with members that overlap with input data at least min.overlap (3 by
default) will be processed
which.distance
which terms with the distance away from the
ontology root (if any) is used to restrict terms in consideration. By
default, it sets to 'NULL' to consider all distances
test
the test statistic used. It can be "fisher" for using
fisher's exact test, "hypergeo" for using hypergeometric test, or
"binomial" for using binomial test. Fisher's exact test is to test the
independence between gene group (genes belonging to a group or not) and
gene annotation (genes annotated by a term or not), and thus compare
sampling to the left part of background (after sampling without
replacement). Hypergeometric test is to sample at random (without
replacement) from the background containing annotated and non-annotated
genes, and thus compare sampling to background. Unlike hypergeometric
test, binomial test is to sample at random (with replacement) from the
background with the constant probability. In terms of the ease of
finding the significance, they are in order: hypergeometric test >
fisher's exact test > binomial test. In other words, in terms of the
calculated p-value, hypergeometric test < fisher's exact test <
binomial test
background.annotatable.only
logical to indicate whether the
background is further restricted to the annotatable. By default, it is
NULL: if ontology.algorithm is not 'none', it is always TRUE;
otherwise, it depends on the background (if not provided, it will be
TRUE; otherwise FALSE). Surely, it can be explicitly stated
p.tail
the tail used to calculate p-values. It can be either
"two-tails" for the significance based on two-tails (ie both over- and
under-overrepresentation) or "one-tail" (by default) for the
significance based on one tail (ie only over-representation)
p.adjust.method
the method used to adjust p-values. It can be
one of "BH", "BY", "bonferroni", "holm", "hochberg" and "hommel". The
first two methods "BH" (widely used) and "BY" control the false
discovery rate (FDR: the expected proportion of false discoveries
amongst the rejected hypotheses); the last four methods "bonferroni",
"holm", "hochberg" and "hommel" are designed to give strong control of
the family-wise error rate (FWER). Notes: FDR is a less stringent
condition than FWER
ontology.algorithm
the algorithm used to account for the
hierarchy of the ontology. It can be one of "none", "pc", "elim" and
"lea". For details, please see 'Note' below
elim.pvalue
the parameter only used when "ontology.algorithm" is
"elim". It is used to control how to declare a signficantly enriched
term (and subsequently all genes in this term are eliminated from all
its ancestors)
lea.depth
the parameter only used when "ontology.algorithm" is
"lea". It is used to control how many maximum depth is used to consider
the children of a term (and subsequently all genes in these children
term are eliminated from the use for the recalculation of the
signifance at this term)
path.mode
the mode of paths induced by vertices/nodes with input
annotation data. It can be "all_paths" for all possible paths to the
root, "shortest_paths" for only one path to the root (for each node in
query), "all_shortest_paths" for all shortest paths to the root (i.e.
for each node, find all shortest paths with the equal lengths)
true.path.rule
logical to indicate whether the true-path rule
should be applied to propagate annotations. By default, it sets to
false
verbose
logical to indicate whether the messages will be
displayed in the screen. By default, it sets to false for no display
silent
logical to indicate whether the messages will be silent
completely. By default, it sets to false. If true, verbose will be
forced to be false
plot
logical to indicate whether heatmap plot is drawn
fdr.cutoff
fdr cutoff used to declare the significant terms. By
default, it is set to 0.05. This option only works when setting plot
(see above) is TRUE
displayBy
which statistics will be used for drawing heatmap. It
can be "fc" for enrichment fold change, "fdr" for adjusted p value (or
FDR), "pvalue" for p value, "zscore" for enrichment z-score (by
default), "or" for odds ratio. This option only works when setting plot
(see above) is TRUE
RData.location
the characters to tell the location of built-in
RData files. See xRDataLoader for details
guid
a valid (5-character) Global Unique IDentifier for an OSF
project. See xRDataLoader for details
Value
an object of class "ls_eTerm", a list with following components:
df: a data frame of n x 12, where the 12 columns are
"group" (the input group names), "ontology" (input ontologies), "id"
(term ID), "name" (term name), "nAnno" (number in members annotated by
a term), "nOverlap" (number in overlaps), "fc" (enrichment fold
changes), "zscore" (enrichment z-score), "pvalue" (nominal p value),
"adjp" (adjusted p value (FDR)), "or" (odds ratio), "CIl" (lower bound
confidence interval for the odds ratio), "CIu" (upper bound confidence
interval for the odds ratio), "distance" (term distance or other
information), "members" (members (represented as Gene Symbols) in
overlaps)
mat: NULL if the plot is not drawn; otherwise, a matrix of
term names X groups with numeric values for the signficant enrichment,
NA for the insignificant ones
gp: NULL if the plot is not drawn; otherwise, a 'ggplot'
object
Note
none
See Also
xRDataLoader, xEnricherGenes,
xEnrichViewer, xHeatmap
Examples
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## Not run:
# Load the library
library(XGR)
RData.location <- "http://galahad.well.ox.ac.uk/bigdata/"
# Gene-based enrichment analysis using ontologies (REACTOME and GOMF)
# a) provide the input Genes of interest (eg 100 randomly chosen human genes)
## load human genes
org.Hs.eg <- xRDataLoader(RData='org.Hs.eg',
RData.location=RData.location)
set.seed(825)
data <- as.character(sample(org.Hs.eg$gene_info$Symbol, 100))
data
# optionally, provide the test background (if not provided, all human genes)
#background <- as.character(org.Hs.eg$gene_info$Symbol)
# b) perform enrichment analysis
ls_eTerm <- xEnricherGenesAdv(data, ontologies=c("REACTOME","GOMF"),
RData.location=RData.location)
ls_eTerm
## forest plot of enrichment results
gp <- xEnrichForest(ls_eTerm, top_num=10)
## heatmap plot of enrichment results
gp <- xEnrichHeatmap(ls_eTerm, fdr.cutoff=0.1, displayBy="or")
## End(Not run)
XGR documentation built on Jan. 8, 2020, 5:06 p.m.
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Description Usage Arguments Value Note See Also Examples
View source: R/xEnricherGenesAdv.r
Description
xEnricherGenesAdv is supposed to conduct enrichment analysis
given a list of gene sets and a list of ontologies. It is an advanced
version of xEnricherGenes, returning an object of the class
'ls_eTerm'.
Usage
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 | xEnricherGenesAdv(
list_vec,
background = NULL,
check.symbol.identity = F,
ontologies = NA,
size.range = c(10, 2000),
min.overlap = 5,
which.distance = NULL,
test = c("fisher", "hypergeo", "binomial"),
background.annotatable.only = NULL,
p.tail = c("one-tail", "two-tails"),
p.adjust.method = c("BH", "BY", "bonferroni", "holm", "hochberg",
"hommel"),
ontology.algorithm = c("none", "pc", "elim", "lea"),
elim.pvalue = 0.01,
lea.depth = 2,
path.mode = c("all_paths", "shortest_paths", "all_shortest_paths"),
true.path.rule = F,
verbose = F,
silent = FALSE,
plot = TRUE,
fdr.cutoff = 0.05,
displayBy = c("zscore", "fdr", "pvalue", "fc", "or"),
RData.location = "http://galahad.well.ox.ac.uk/bigdata",
guid = NULL
)
|
Arguments
list_vec |
an input vector containing gene symbols. Alternatively it can be a list of vectors, representing multiple groups of genes |
background |
a background vector containing gene symbols as the test background. If NULL, by default all annotatable are used as background |
check.symbol.identity |
logical to indicate whether to match the input data/background via Synonyms for those unmatchable by official gene symbols. By default, it sets to false |
ontologies |
the ontologies supported currently. Pre-built
ontology and annotation data are detailed in
|
size.range |
the minimum and maximum size of members of each term in consideration. By default, it sets to a minimum of 10 but no more than 2000 |
min.overlap |
the minimum number of overlaps. Only those terms with members that overlap with input data at least min.overlap (3 by default) will be processed |
which.distance |
which terms with the distance away from the ontology root (if any) is used to restrict terms in consideration. By default, it sets to 'NULL' to consider all distances |
test |
the test statistic used. It can be "fisher" for using fisher's exact test, "hypergeo" for using hypergeometric test, or "binomial" for using binomial test. Fisher's exact test is to test the independence between gene group (genes belonging to a group or not) and gene annotation (genes annotated by a term or not), and thus compare sampling to the left part of background (after sampling without replacement). Hypergeometric test is to sample at random (without replacement) from the background containing annotated and non-annotated genes, and thus compare sampling to background. Unlike hypergeometric test, binomial test is to sample at random (with replacement) from the background with the constant probability. In terms of the ease of finding the significance, they are in order: hypergeometric test > fisher's exact test > binomial test. In other words, in terms of the calculated p-value, hypergeometric test < fisher's exact test < binomial test |
background.annotatable.only |
logical to indicate whether the background is further restricted to the annotatable. By default, it is NULL: if ontology.algorithm is not 'none', it is always TRUE; otherwise, it depends on the background (if not provided, it will be TRUE; otherwise FALSE). Surely, it can be explicitly stated |
p.tail |
the tail used to calculate p-values. It can be either "two-tails" for the significance based on two-tails (ie both over- and under-overrepresentation) or "one-tail" (by default) for the significance based on one tail (ie only over-representation) |
p.adjust.method |
the method used to adjust p-values. It can be one of "BH", "BY", "bonferroni", "holm", "hochberg" and "hommel". The first two methods "BH" (widely used) and "BY" control the false discovery rate (FDR: the expected proportion of false discoveries amongst the rejected hypotheses); the last four methods "bonferroni", "holm", "hochberg" and "hommel" are designed to give strong control of the family-wise error rate (FWER). Notes: FDR is a less stringent condition than FWER |
ontology.algorithm |
the algorithm used to account for the hierarchy of the ontology. It can be one of "none", "pc", "elim" and "lea". For details, please see 'Note' below |
elim.pvalue |
the parameter only used when "ontology.algorithm" is "elim". It is used to control how to declare a signficantly enriched term (and subsequently all genes in this term are eliminated from all its ancestors) |
lea.depth |
the parameter only used when "ontology.algorithm" is "lea". It is used to control how many maximum depth is used to consider the children of a term (and subsequently all genes in these children term are eliminated from the use for the recalculation of the signifance at this term) |
path.mode |
the mode of paths induced by vertices/nodes with input annotation data. It can be "all_paths" for all possible paths to the root, "shortest_paths" for only one path to the root (for each node in query), "all_shortest_paths" for all shortest paths to the root (i.e. for each node, find all shortest paths with the equal lengths) |
true.path.rule |
logical to indicate whether the true-path rule should be applied to propagate annotations. By default, it sets to false |
verbose |
logical to indicate whether the messages will be displayed in the screen. By default, it sets to false for no display |
silent |
logical to indicate whether the messages will be silent completely. By default, it sets to false. If true, verbose will be forced to be false |
plot |
logical to indicate whether heatmap plot is drawn |
fdr.cutoff |
fdr cutoff used to declare the significant terms. By default, it is set to 0.05. This option only works when setting plot (see above) is TRUE |
displayBy |
which statistics will be used for drawing heatmap. It can be "fc" for enrichment fold change, "fdr" for adjusted p value (or FDR), "pvalue" for p value, "zscore" for enrichment z-score (by default), "or" for odds ratio. This option only works when setting plot (see above) is TRUE |
RData.location |
the characters to tell the location of built-in
RData files. See |
guid |
a valid (5-character) Global Unique IDentifier for an OSF
project. See |
Value
an object of class "ls_eTerm", a list with following components:
df: a data frame of n x 12, where the 12 columns are "group" (the input group names), "ontology" (input ontologies), "id" (term ID), "name" (term name), "nAnno" (number in members annotated by a term), "nOverlap" (number in overlaps), "fc" (enrichment fold changes), "zscore" (enrichment z-score), "pvalue" (nominal p value), "adjp" (adjusted p value (FDR)), "or" (odds ratio), "CIl" (lower bound confidence interval for the odds ratio), "CIu" (upper bound confidence interval for the odds ratio), "distance" (term distance or other information), "members" (members (represented as Gene Symbols) in overlaps)mat: NULL if the plot is not drawn; otherwise, a matrix of term names X groups with numeric values for the signficant enrichment, NA for the insignificant onesgp: NULL if the plot is not drawn; otherwise, a 'ggplot' object
Note
none
See Also
xRDataLoader, xEnricherGenes,
xEnrichViewer, xHeatmap
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 | ## Not run:
# Load the library
library(XGR)
RData.location <- "http://galahad.well.ox.ac.uk/bigdata/"
# Gene-based enrichment analysis using ontologies (REACTOME and GOMF)
# a) provide the input Genes of interest (eg 100 randomly chosen human genes)
## load human genes
org.Hs.eg <- xRDataLoader(RData='org.Hs.eg',
RData.location=RData.location)
set.seed(825)
data <- as.character(sample(org.Hs.eg$gene_info$Symbol, 100))
data
# optionally, provide the test background (if not provided, all human genes)
#background <- as.character(org.Hs.eg$gene_info$Symbol)
# b) perform enrichment analysis
ls_eTerm <- xEnricherGenesAdv(data, ontologies=c("REACTOME","GOMF"),
RData.location=RData.location)
ls_eTerm
## forest plot of enrichment results
gp <- xEnrichForest(ls_eTerm, top_num=10)
## heatmap plot of enrichment results
gp <- xEnrichHeatmap(ls_eTerm, fdr.cutoff=0.1, displayBy="or")
## End(Not run)
|
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