Filters supported by ensembldb
ensembldb supports most of the filters from the AnnotationFilter
package to retrieve specific content from EnsDb databases. These filters
can be passed to the methods such as genes() with the filter parameter
or can be added as a global filter to an EnsDb object (see
addFilter() for more details). Use supportedFilters() to get an
overview of all filters supported by EnsDb object.
seqnames: accessor for the sequence names of the GRanges
object within a GRangesFilter.
seqnames: accessor for the seqlevels of the GRanges
object within a GRangesFilter.
supportedFilters returns a data.frame with the
names of all filters and the corresponding field supported by the
EnsDb object.
OnlyCodingTxFilter() ProtDomIdFilter(value, condition = "==") ProteinDomainIdFilter(value, condition = "==") ProteinDomainSourceFilter(value, condition = "==") UniprotDbFilter(value, condition = "==") UniprotMappingTypeFilter(value, condition = "==") TxSupportLevelFilter(value, condition = "==") ## S4 method for signature 'GRangesFilter' seqnames(x) ## S4 method for signature 'GRangesFilter' seqlevels(x) ## S4 method for signature 'EnsDb' supportedFilters(object, ...)
value |
The value(s) for the filter. For |
condition |
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x |
For |
object |
For |
... |
For |
ensembldb supports the following filters from the AnnotationFilter
package:
GeneIdFilter: filter based on the Ensembl gene ID.
GeneNameFilter: filter based on the name of the gene as provided
Ensembl. In most cases this will correspond to the official gene symbol.
SymbolFilter filter based on the gene names. EnsDb objects don't
have a dedicated symbol column, the filtering is hence based on the
gene names.
GeneBiotype: filter based on the biotype of genes (e.g.
"protein_coding").
GeneStartFilter: filter based on the genomic start coordinate of genes.
GeneEndFilter: filter based on the genomic end coordinate of genes.
EntrezidFilter: filter based on the genes' NCBI Entrezgene ID.
TxIdFilter: filter based on the Ensembld transcript ID.
TxNameFilter: filter based on the Ensembld transcript ID; no transcript
names are provided in EnsDb databases.
TxBiotypeFilter: filter based on the transcripts' biotype.
TxStartFilter: filter based on the genomic start coordinate of the
transcripts.
TxEndFilter: filter based on the genonic end coordinates of the
transcripts.
ExonIdFilter: filter based on Ensembl exon IDs.
ExonRankFilter: filter based on the index/rank of the exon within the
transcrips.
ExonStartFilter: filter based on the genomic start coordinates of the
exons.
ExonEndFilter: filter based on the genomic end coordinates of the exons.
GRangesFilter: Allows to fetch features within or overlapping specified
genomic region(s)/range(s). This filter takes a GRanges object
as input and, if type = "any" (the default) will restrict results to
features (genes, transcripts or exons) that are partially overlapping the
region. Alternatively, by specifying condition = "within" it will
return features located within the range. In addition, the GRangesFilter
condition = "start", condition = "end" and condition = "equal"
filtering for features with the same start or end coordinate or that are
equal to the GRanges.
Note that the type of feature on which the filter is applied depends on
the method that is called, i.e. genes() will filter on the
genomic coordinates of genes, transcripts() on those of
transcripts and exons() on exon coordinates.
Calls to the methods exonsBy(), cdsBy() and
transcriptsBy() use the start and end coordinates of the
feature type specified with argument by (i.e. "gene",
"transcript" or "exon") for the filtering.
If the specified GRanges object defines multiple regions, all
features within (or overlapping) any of these regions are returned.
Chromosome names/seqnames can be provided in UCSC format (e.g.
"chrX") or Ensembl format (e.g. "X"); see seqlevelsStyle() for
more information.
SeqNameFilter: filter based on chromosome names.
SeqStrandFilter: filter based on the chromosome strand. The strand can
be specified with value = "+", value = "-", value = -1 or
value = 1.
ProteinIdFilter: filter based on Ensembl protein IDs. This filter is
only supported if the EnsDb provides protein annotations; use the
hasProteinData() method to check.
UniprotFilter: filter based on Uniprot IDs. This filter is only
supported if the EnsDb provides protein annotations; use the
hasProteinData() method to check.
In addition, the following filters are defined by ensembldb:
TxSupportLevel: allows to filter results using the provided transcript
support level. Support levels for transcripts are defined by Ensembl
based on the available evidences for a transcript with 1 being the
highest evidence grade and 5 the lowest level. This filter is only
supported on EnsDb databases with a db schema version higher 2.1.
UniprotDbFilter: allows to filter results based on the specified Uniprot
database name(s).
UniprotMappingTypeFilter: allows to filter results based on the mapping
method/type that was used to assign Uniprot IDs to Ensembl protein IDs.
ProtDomIdFilter, ProteinDomainIdFilter: allows to retrieve entries
from the database matching the provided filter criteria based on their
protein domain ID (protein_domain_id).
ProteinDomainSourceFilter: filter results based on the source
(database/method) defining the protein domain (e.g. "pfam").
OnlyCodingTxFilter: allows to retrieve entries only for protein coding
transcripts, i.e. transcripts with a CDS. This filter does not take any
input arguments.
For ProtDomIdFilter: A ProtDomIdFilter object.
For ProteinDomainIdFilter: A ProteinDomainIdFilter object.
For ProteinDomainSourceFilter: A ProteinDomainSourceFilter
object.
For UniprotDbFilter: A UniprotDbFilter object.
For UniprotMappingTypeFilter: A UniprotMappingTypeFilter object.
For TxSupportLevel: A TxSupportLevel object.
For supportedFilters: a data.frame with the names and
the corresponding field of the supported filter classes.
For users of ensembldb version < 2.0: in the GRangesFilter from the
AnnotationFilter package the condition parameter was renamed to type
(to be consistent with the IRanges package). In addition,
condition = "overlapping" is no longer recognized. To retrieve all
features overlapping the range type = "any" has to be used.
Protein annotation based filters can only be used if the
EnsDb database contains protein annotations, i.e. if hasProteinData
is TRUE. Also, only protein coding transcripts will have protein
annotations available, thus, non-coding transcripts/genes will not be
returned by the queries using protein annotation filters.
Johannes Rainer
supportedFilters() to list all filters supported for EnsDb objects.
listUniprotDbs() and listUniprotMappingTypes() to list all Uniprot
database names respectively mapping method types from the database.
GeneIdFilter() in the AnnotationFilter package for more details on the
filter objects.
addFilter() and filter() for globally adding filters to an EnsDb.
## Create a filter that could be used to retrieve all informations for
## the respective gene.
gif <- GeneIdFilter("ENSG00000012817")
gif
## Create a filter for a chromosomal end position of a gene
sef <- GeneEndFilter(10000, condition = ">")
sef
## For additional examples see the help page of "genes".
## Example for GRangesFilter:
## retrieve all genes overlapping the specified region
grf <- GRangesFilter(GRanges("11", ranges = IRanges(114129278, 114129328),
strand = "+"), type = "any")
library(EnsDb.Hsapiens.v86)
edb <- EnsDb.Hsapiens.v86
genes(edb, filter = grf)
## Get also all transcripts overlapping that region.
transcripts(edb, filter = grf)
## Retrieve all transcripts for the above gene
gn <- genes(edb, filter = grf)
txs <- transcripts(edb, filter = GeneNameFilter(gn$gene_name))
## Next we simply plot their start and end coordinates.
plot(3, 3, pch=NA, xlim=c(start(gn), end(gn)), ylim=c(0, length(txs)),
yaxt="n", ylab="")
## Highlight the GRangesFilter region
rect(xleft=start(grf), xright=end(grf), ybottom=0, ytop=length(txs),
col="red", border="red")
for(i in 1:length(txs)){
current <- txs[i]
rect(xleft=start(current), xright=end(current), ybottom=i-0.975, ytop=i-0.125, border="grey")
text(start(current), y=i-0.5,pos=4, cex=0.75, labels=current$tx_id)
}
## Thus, we can see that only 4 transcripts of that gene are indeed
## overlapping the region.
## No exon is overlapping that region, thus we're not getting anything
exons(edb, filter = grf)
## Example for ExonRankFilter
## Extract all exons 1 and (if present) 2 for all genes encoded on the
## Y chromosome
exons(edb, columns = c("tx_id", "exon_idx"),
filter=list(SeqNameFilter("Y"),
ExonRankFilter(3, condition = "<")))
## Get all transcripts for the gene SKA2
transcripts(edb, filter = GeneNameFilter("SKA2"))
## Which is the same as using a SymbolFilter
transcripts(edb, filter = SymbolFilter("SKA2"))
## Create a ProteinIdFilter:
pf <- ProteinIdFilter("ENSP00000362111")
pf
## Using this filter would retrieve all database entries that are associated
## with a protein with the ID "ENSP00000362111"
if (hasProteinData(edb)) {
res <- genes(edb, filter = pf)
res
}
## UniprotFilter:
uf <- UniprotFilter("O60762")
## Get the transcripts encoding that protein:
if (hasProteinData(edb)) {
transcripts(edb, filter = uf)
## The mapping Ensembl protein ID to Uniprot ID can however be 1:n:
transcripts(edb, filter = TxIdFilter("ENST00000371588"),
columns = c("protein_id", "uniprot_id"))
}
## ProtDomIdFilter:
pdf <- ProtDomIdFilter("PF00335")
## Also here we could get all transcripts related to that protein domain
if (hasProteinData(edb)) {
transcripts(edb, filter = pdf, columns = "protein_id")
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