create_rse: Create a recount3 RangedSummarizedExperiment gene or exon...
In recount3: Explore and download data from the recount3 project
Description
Usage
Arguments
Value
Examples
Description
Once you have identified a project you want to work with, you can use this
function to construct a recount3
RangedSummarizedExperiment-class
(RSE) object at the gene or exon expression feature level. This function will
retrieve the data, cache it, then assemble the RSE object.
Usage
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create_rse(
project_info,
type = c("gene", "exon", "jxn"),
annotation = annotation_options(project_info$organism),
bfc = recount3_cache(),
jxn_format = c("ALL", "UNIQUE"),
recount3_url = getOption("recount3_url", "http://duffel.rail.bio/recount3"),
verbose = getOption("recount3_verbose", TRUE)
)
Arguments
project_info
A data.frame() with one row that contains the
information for the project you are interested in. You can find which
project to work on using available_projects().
type
A character(1) specifying whether you want to access gene,
exon, or exon-exon junction counts.
annotation
A character(1) specifying which annotation you want to
download. Only used when type is either gene or exon.
bfc
A BiocFileCache-class
object where the files will be cached to, typically created by
recount3_cache().
jxn_format
A character(1) specifying whether the exon-exon junction
files are derived from all the reads (ALL) or only the uniquely mapping
read counts (UNIQUE). Note that UNIQUE is only available for some
projects: GTEx and TCGA for human.
recount3_url
A character(1) specifying the home URL for recount3
or a local directory where you have mirrored recount3.
verbose
A logical(1) indicating whether to show messages with
updates.
Value
A
RangedSummarizedExperiment-class
object.
Examples
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## Find all available human projects
human_projects <- available_projects()
## Find the project you are interested in
proj_info <- subset(
human_projects,
project == "SRP009615" & project_type == "data_sources"
)
## Create a RSE object at the gene level
rse_gene_SRP009615 <- create_rse(proj_info)
## Explore the resulting RSE gene object
rse_gene_SRP009615
## Information about how this RSE object was made
metadata(rse_gene_SRP009615)
## Number of genes by number of samples
dim(rse_gene_SRP009615)
## Information about the genes
rowRanges(rse_gene_SRP009615)
## Sample metadata
colnames(colData(rse_gene_SRP009615))
## Check how much memory this RSE object uses
pryr::object_size(rse_gene_SRP009615)
## Create an RSE object using gencode_v29 instead of gencode_v26
rse_gene_SRP009615_gencode_v29 <- create_rse(
proj_info,
annotation = "gencode_v29",
verbose = FALSE
)
rowRanges(rse_gene_SRP009615_gencode_v29)
## Create an RSE object using FANTOM6_CAT instead of gencode_v26
rse_gene_SRP009615_fantom6_cat <- create_rse(
proj_info,
annotation = "fantom6_cat"
)
rowRanges(rse_gene_SRP009615_fantom6_cat)
## Create an RSE object using RefSeq instead of gencode_v26
rse_gene_SRP009615_refseq <- create_rse(
proj_info,
annotation = "refseq"
)
rowRanges(rse_gene_SRP009615_refseq)
## Create an RSE object using ERCC instead of gencode_v26
rse_gene_SRP009615_ercc <- create_rse(
proj_info,
annotation = "ercc"
)
rowRanges(rse_gene_SRP009615_ercc)
## Create an RSE object using SIRV instead of gencode_v26
rse_gene_SRP009615_sirv <- create_rse(
proj_info,
annotation = "sirv"
)
rowRanges(rse_gene_SRP009615_sirv)
## Obtain a list of RSE objects for all gene annotations
rses_gene <- lapply(annotation_options(), function(x) {
create_rse(proj_info, type = "gene", annotation = x)
})
names(rses_gene) <- annotation_options()
rses_gene
## Create a RSE object at the exon level
rse_exon_SRP009615 <- create_rse(
proj_info,
type = "exon"
)
## Explore the resulting RSE exon object
rse_exon_SRP009615
dim(rse_exon_SRP009615)
rowRanges(rse_exon_SRP009615)
pryr::object_size(rse_exon_SRP009615)
## Create a RSE object at the exon-exon junction level
rse_jxn_SRP009615 <- create_rse(
proj_info,
type = "jxn"
)
## Explore the resulting RSE exon-exon junctions object
rse_jxn_SRP009615
dim(rse_jxn_SRP009615)
rowRanges(rse_jxn_SRP009615)
pryr::object_size(rse_jxn_SRP009615)
## Obtain a list of RSE objects for all exon annotations
## Not run:
rses_exon <- lapply(annotation_options(), function(x) {
create_rse(proj_info, type = "exon", annotation = x, verbose = FALSE)
})
names(rses_exon) <- annotation_options()
## End(Not run)
recount3 documentation built on Feb. 13, 2021, 2 a.m.
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Description Usage Arguments Value Examples
Description
Once you have identified a project you want to work with, you can use this
function to construct a recount3
RangedSummarizedExperiment-class
(RSE) object at the gene or exon expression feature level. This function will
retrieve the data, cache it, then assemble the RSE object.
Usage
1 2 3 4 5 6 7 8 9 | create_rse(
project_info,
type = c("gene", "exon", "jxn"),
annotation = annotation_options(project_info$organism),
bfc = recount3_cache(),
jxn_format = c("ALL", "UNIQUE"),
recount3_url = getOption("recount3_url", "http://duffel.rail.bio/recount3"),
verbose = getOption("recount3_verbose", TRUE)
)
|
Arguments
project_info |
A |
type |
A |
annotation |
A |
bfc |
A BiocFileCache-class
object where the files will be cached to, typically created by
|
jxn_format |
A |
recount3_url |
A |
verbose |
A |
Value
A RangedSummarizedExperiment-class object.
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 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 | ## Find all available human projects
human_projects <- available_projects()
## Find the project you are interested in
proj_info <- subset(
human_projects,
project == "SRP009615" & project_type == "data_sources"
)
## Create a RSE object at the gene level
rse_gene_SRP009615 <- create_rse(proj_info)
## Explore the resulting RSE gene object
rse_gene_SRP009615
## Information about how this RSE object was made
metadata(rse_gene_SRP009615)
## Number of genes by number of samples
dim(rse_gene_SRP009615)
## Information about the genes
rowRanges(rse_gene_SRP009615)
## Sample metadata
colnames(colData(rse_gene_SRP009615))
## Check how much memory this RSE object uses
pryr::object_size(rse_gene_SRP009615)
## Create an RSE object using gencode_v29 instead of gencode_v26
rse_gene_SRP009615_gencode_v29 <- create_rse(
proj_info,
annotation = "gencode_v29",
verbose = FALSE
)
rowRanges(rse_gene_SRP009615_gencode_v29)
## Create an RSE object using FANTOM6_CAT instead of gencode_v26
rse_gene_SRP009615_fantom6_cat <- create_rse(
proj_info,
annotation = "fantom6_cat"
)
rowRanges(rse_gene_SRP009615_fantom6_cat)
## Create an RSE object using RefSeq instead of gencode_v26
rse_gene_SRP009615_refseq <- create_rse(
proj_info,
annotation = "refseq"
)
rowRanges(rse_gene_SRP009615_refseq)
## Create an RSE object using ERCC instead of gencode_v26
rse_gene_SRP009615_ercc <- create_rse(
proj_info,
annotation = "ercc"
)
rowRanges(rse_gene_SRP009615_ercc)
## Create an RSE object using SIRV instead of gencode_v26
rse_gene_SRP009615_sirv <- create_rse(
proj_info,
annotation = "sirv"
)
rowRanges(rse_gene_SRP009615_sirv)
## Obtain a list of RSE objects for all gene annotations
rses_gene <- lapply(annotation_options(), function(x) {
create_rse(proj_info, type = "gene", annotation = x)
})
names(rses_gene) <- annotation_options()
rses_gene
## Create a RSE object at the exon level
rse_exon_SRP009615 <- create_rse(
proj_info,
type = "exon"
)
## Explore the resulting RSE exon object
rse_exon_SRP009615
dim(rse_exon_SRP009615)
rowRanges(rse_exon_SRP009615)
pryr::object_size(rse_exon_SRP009615)
## Create a RSE object at the exon-exon junction level
rse_jxn_SRP009615 <- create_rse(
proj_info,
type = "jxn"
)
## Explore the resulting RSE exon-exon junctions object
rse_jxn_SRP009615
dim(rse_jxn_SRP009615)
rowRanges(rse_jxn_SRP009615)
pryr::object_size(rse_jxn_SRP009615)
## Obtain a list of RSE objects for all exon annotations
## Not run:
rses_exon <- lapply(annotation_options(), function(x) {
create_rse(proj_info, type = "exon", annotation = x, verbose = FALSE)
})
names(rses_exon) <- annotation_options()
## End(Not run)
|
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