BSgenome objects
The BSgenome class is a container for storing the full genome sequences
of a given organism. BSgenome objects are usually made in advance by
a volunteer and made available to the Bioconductor community as
"BSgenome data packages".
See ?available.genomes
for how to get the list of
"BSgenome data packages" curently available.
In the code snippets below, x
is a BSgenome object.
metadata(x)
Returns a named list containing metadata associated with the BSgenome object. The components of the list are:
organism
: The scientific name of the organism that this
BSgenome object is for. E.g. "Homo sapiens"
,
"Mus musculus"
, "Caenorhabditis elegans"
, etc...
common_name
: The common name of the organism that this
BSgenome object is for. E.g. "Human"
, "Mouse"
,
"Worm"
, etc...
genome
: The name of the genome. Typically the name of
an NCBI assembly (e.g. "GRCh38.p12"
, "WBcel235"
,
"TAIR10.1"
, "ARS-UCD1.2"
, etc...) or UCSC genome
(e.g. "hg38"
, "bosTau9"
, "galGal6"
,
"ce11"
, etc...).
provider
: The provider of this genome. E.g.
"UCSC"
, "BDGP"
, "FlyBase"
, etc...
release_date
: The release date of this genome e.g.
"Mar. 2006"
.
source_url
: The permanent URL to the place where the
FASTA files used to produce the sequences contained in
x
can be found (and downloaded).
seqnames(x)
, seqnames(x) <- value
Gets or sets the names of the single sequences contained in x
.
Each single sequence is stored in a DNAString
or MaskedDNAString object and typically comes
from a source file (FASTA) with a single record.
The names returned by seqnames(x)
usually reflect the names
of those source files but a common prefix or suffix was eventually
removed in order to keep them as short as possible.
seqlengths(x)
Returns the lengths of the single sequences contained in x
.
See ?`length,XVector-method`
and
?`length,MaskedXString-method`
for
the definition of the length of a DNAString
or MaskedDNAString object.
Note that the length of a masked sequence
(MaskedXString object) is not
affected by the current set of active masks but the nchar
method for MaskedXString objects is.
names(seqlengths(x))
is guaranteed to be identical to
seqnames(x)
.
mseqnames(x)
Returns the index of the multiple sequences contained in x
.
Each multiple sequence is stored in a
DNAStringSet object and typically comes from
a source file (FASTA) with multiple records.
The names returned by mseqnames(x)
usually reflect the names
of those source files but a common prefix or suffix was eventually
removed in order to keep them as short as possible.
names(x)
Returns the index of all sequences contained in x
.
This is the same as c(seqnames(x), mseqnames(x))
.
length(x)
Returns the length of x
, i.e., the total number of sequences
in it (single and multiple sequences). This is the same as
length(names(x))
.
x[[name]]
Returns the sequence (single or multiple) in x
named name
(name
must be a single string).
No sequence is actually loaded into memory until this is explicitely
requested with a call to x[[name]]
or x$name
.
When loaded, a sequence is kept in a cache. It will be automatically
removed from the cache at garbage collection if it's not in use anymore
i.e. if there are no reference to it (other than the reference stored
in the cache). With options(verbose=TRUE)
, a message is printed
each time a sequence is removed from the cache.
x$name
Same as x[[name]]
but name
is not evaluated and
therefore must be a literal character string or a name (possibly
backtick quoted).
masknames(x)
The names of the built-in masks that are defined for all the single sequences. There can be up to 4 built-in masks per sequence. These will always be (in this order): (1) the mask of assembly gaps, aka "the AGAPS mask";
(2) the mask of intra-contig ambiguities, aka "the AMB mask";
(3) the mask of repeat regions that were determined by the RepeatMasker software, aka "the RM mask";
(4) the mask of repeat regions that were determined by the Tandem Repeats Finder software (where only repeats with period less than or equal to 12 were kept), aka "the TRF mask".
All the single sequences in a given package are guaranteed to have the same collection of built-in masks (same number of masks and in the same order).
masknames(x)
gives the names of the masks in this collection.
Therefore the value returned by masknames(x)
is a character vector
made of the first N elements of c("AGAPS", "AMB", "RM", "TRF")
,
where N depends only on the BSgenome data package being looked at
(0 <= N <= 4).
The man page for most BSgenome data packages should provide the exact
list and permanent URLs of the source data files that were used to
extract the built-in masks.
For example, if you've installed the BSgenome.Hsapiens.UCSC.hg38 package,
load it and see the Note section in
?`BSgenome.Hsapiens.UCSC.hg38`
.
H. Pagès
## Loading a BSgenome data package doesn't load its sequences ## into memory: library(BSgenome.Celegans.UCSC.ce2) metadata(Celegans) ## Number of sequences in this genome: length(Celegans) ## Display a summary of the sequences: Celegans ## Index of single sequences: seqnames(Celegans) ## Lengths (i.e. number of nucleotides) of the single sequences: seqlengths(Celegans) ## Load chromosome I from disk to memory (hence takes some time) ## and keep a reference to it: chrI <- Celegans[["chrI"]] # equivalent to Celegans$chrI chrI class(chrI) # a DNAString instance length(chrI) # with 15080483 nucleotides ## Single sequence can be renamed: seqnames(Celegans) <- sub("^chr", "", seqnames(Celegans)) seqlengths(Celegans) Celegans$I seqnames(Celegans) <- paste0("chr", seqnames(Celegans)) ## Multiple sequences: library(BSgenome.Rnorvegicus.UCSC.rn5) rn5 <- BSgenome.Rnorvegicus.UCSC.rn5 rn5 seqnames(rn5) rn5_chr1 <- rn5$chr1 mseqnames(rn5) rn5_random <- Rnorvegicus$random rn5_random class(rn5_random) # a DNAStringSet instance ## Character vector containing the description lines of the first ## 4 sequences in the original FASTA file: names(rn5_random)[1:4] ## --------------------------------------------------------------------- ## PASS-BY-ADDRESS SEMANTIC, CACHING AND MEMORY USAGE ## --------------------------------------------------------------------- ## We want a message to be printed each time a sequence is removed ## from the cache: options(verbose=TRUE) gc() # nothing seems to be removed from the cache rm(rn5_chr1, rn5_random) gc() # rn5_chr1 and rn5_random are removed from the cache (they are # not in use anymore) options(verbose=FALSE) ## Get the current amount of data in memory (in Mb): mem0 <- gc()["Vcells", "(Mb)"] system.time(rn5_chr2 <- rn5$chr2) # read from disk gc()["Vcells", "(Mb)"] - mem0 # 'rn5_chr2' occupies 20Mb in memory system.time(tmp <- rn5$chr2) # much faster! (sequence # is in the cache) gc()["Vcells", "(Mb)"] - mem0 # we're still using 20Mb (sequences # have a pass-by-address semantic # i.e. the sequence data are not # duplicated) ## subseq() doesn't copy the sequence data either, hence it is very ## fast and memory efficient (but the returned object will hold a ## reference to 'rn5_chr2'): y <- subseq(rn5_chr2, 10, 8000000) gc()["Vcells", "(Mb)"] - mem0 ## We must remove all references to 'rn5_chr2' before it can be ## removed from the cache (so the 20Mb of memory used by this ## sequence are freed): options(verbose=TRUE) rm(rn5_chr2, tmp) gc() ## Remember that 'y' holds a reference to 'rn5_chr2' too: rm(y) gc() options(verbose=FALSE) gc()["Vcells", "(Mb)"] - mem0
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