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inst/doc/tRNAdbImport.R
In tRNAdbImport: Importing from tRNAdb and mitotRNAdb as GRanges objects
## ----style, echo = FALSE, results = 'asis'------------------------------------
BiocStyle::markdown(css.files = c('custom.css'))
## ---- echo=FALSE--------------------------------------------------------------
suppressPackageStartupMessages(
library(tRNAdbImport)
)
## ----eval=FALSE---------------------------------------------------------------
# library(tRNAdbImport)
## -----------------------------------------------------------------------------
# accessing tRNAdb
# tRNA from yeast for Alanine and Phenylalanine
gr <- import.tRNAdb(organism = "Saccharomyces cerevisiae",
aminoacids = c("Phe","Ala"))
## -----------------------------------------------------------------------------
# get a Phenylalanine tRNA from yeast
gr <- import.tRNAdb.id(tdbID = gr[gr$tRNA_type == "Phe",][1L]$tRNAdb_ID)
## -----------------------------------------------------------------------------
# find the same tRNA via blast
gr <- import.tRNAdb.blast(blastSeq = gr$tRNA_seq)
## -----------------------------------------------------------------------------
# accessing mtRNAdb
# get the mitochrondrial tRNA for Alanine in Bos taurus
gr <- import.mttRNAdb(organism = "Bos taurus",
aminoacids = "Ala")
## -----------------------------------------------------------------------------
# get one mitochrondrial tRNA in Bos taurus.
gr <- import.mttRNAdb.id(mtdbID = gr[1L]$tRNAdb_ID)
## -----------------------------------------------------------------------------
# check that the result has the appropriate columns
istRNAdbGRanges(gr)
## -----------------------------------------------------------------------------
gr <- import.tRNAdb(organism = "Saccharomyces cerevisiae",
aminoacids = c("Phe","Ala"),
database = "RNA")
gr$tRNA_seq
## -----------------------------------------------------------------------------
separate(gr$tRNA_seq)
## ---- echo=FALSE--------------------------------------------------------------
suppressPackageStartupMessages({
library(Biostrings)
library(rtracklayer)
})
## -----------------------------------------------------------------------------
library(Biostrings)
library(rtracklayer)
# saving the tRAN sequences as fasta file
writeXStringSet(gr$tRNA_seq, filepath = tempfile())
# converting tRNAdb information to GFF compatible values
gff <- tRNAdb2GFF(gr)
gff
# Saving the information as gff3 file
export.gff3(gff, con = tempfile())
## -----------------------------------------------------------------------------
sessionInfo()
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tRNAdbImport documentation built on Nov. 8, 2020, 6:50 p.m.
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## ----style, echo = FALSE, results = 'asis'------------------------------------
BiocStyle::markdown(css.files = c('custom.css'))
## ---- echo=FALSE--------------------------------------------------------------
suppressPackageStartupMessages(
library(tRNAdbImport)
)
## ----eval=FALSE---------------------------------------------------------------
# library(tRNAdbImport)
## -----------------------------------------------------------------------------
# accessing tRNAdb
# tRNA from yeast for Alanine and Phenylalanine
gr <- import.tRNAdb(organism = "Saccharomyces cerevisiae",
aminoacids = c("Phe","Ala"))
## -----------------------------------------------------------------------------
# get a Phenylalanine tRNA from yeast
gr <- import.tRNAdb.id(tdbID = gr[gr$tRNA_type == "Phe",][1L]$tRNAdb_ID)
## -----------------------------------------------------------------------------
# find the same tRNA via blast
gr <- import.tRNAdb.blast(blastSeq = gr$tRNA_seq)
## -----------------------------------------------------------------------------
# accessing mtRNAdb
# get the mitochrondrial tRNA for Alanine in Bos taurus
gr <- import.mttRNAdb(organism = "Bos taurus",
aminoacids = "Ala")
## -----------------------------------------------------------------------------
# get one mitochrondrial tRNA in Bos taurus.
gr <- import.mttRNAdb.id(mtdbID = gr[1L]$tRNAdb_ID)
## -----------------------------------------------------------------------------
# check that the result has the appropriate columns
istRNAdbGRanges(gr)
## -----------------------------------------------------------------------------
gr <- import.tRNAdb(organism = "Saccharomyces cerevisiae",
aminoacids = c("Phe","Ala"),
database = "RNA")
gr$tRNA_seq
## -----------------------------------------------------------------------------
separate(gr$tRNA_seq)
## ---- echo=FALSE--------------------------------------------------------------
suppressPackageStartupMessages({
library(Biostrings)
library(rtracklayer)
})
## -----------------------------------------------------------------------------
library(Biostrings)
library(rtracklayer)
# saving the tRAN sequences as fasta file
writeXStringSet(gr$tRNA_seq, filepath = tempfile())
# converting tRNAdb information to GFF compatible values
gff <- tRNAdb2GFF(gr)
gff
# Saving the information as gff3 file
export.gff3(gff, con = tempfile())
## -----------------------------------------------------------------------------
sessionInfo()
Try the tRNAdbImport package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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