Bioconductor Code: svaRetro

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README.md

# svaRetro: R package for retrotransposed transcript detection from structural variants  [![License: GPL v3](https://img.shields.io/badge/License-GPLv3-blue.svg)](https://www.gnu.org/licenses/gpl-3.0)  `svaRetro` contains functions for detecting retrotransposed transcripts (RTs) from structural variant calls. It takes structural variant calls in GRanges of breakend notation and identifies RTs by exon-exon junctions and insertion sites. The candidate RTs are reported by events and annotated with information of the inserted transcripts. This package uses a breakend-centric event notation adopted from the [`StructuralVariantAnnotation`](https://www.bioconductor.org/packages/release/bioc/html/StructuralVariantAnnotation.html) package. More information about `VCF` objects and breakend-centric GRanges object can be found by consulting the vignettes in the corresponding packages with `browseVignettes("VariantAnnotation")` and `browseVignettes("StructuralVariantAnnotation")`. # Installation `svaRetro` is currently under review on Bioconductor.  The development version can be installed from GitHub: ``` r BiocManager::install("PapenfussLab/svaRetro") ``` # How to cite TBC.  # Workflow Below is a workflow example for detecting RTs from a human SV callset. This example is taken from the vignette of `svaRetro`. ``` r library(StructuralVariantAnnotation) library(VariantAnnotation) library(svaRetro) RT_vcf <- readVcf(system.file("extdata", "diploidSV.vcf", package = "svaRetro")) ``` ``` r RT_gr <- StructuralVariantAnnotation::breakpointRanges(RT_vcf, nominalPosition=TRUE) head(RT_gr) #> GRanges object with 6 ranges and 12 metadata columns: #> seqnames ranges strand | paramRangeID REF ALT QUAL FILTER sourceId partner svtype svLen insSeq insLen HOMLEN #> <Rle> <IRanges> <Rle> | <factor> <character> <character> <numeric> <character> <character> <character> <character> <numeric> <character> <numeric> <numeric> #> MantaINS:0:775:775:0:1:0_bp1 1 66365 + | NA AATATAATATATAA ATATATATATTATTATATAATATATATTATATAATATATTTTATTATATAATATAATATATATTATATAATATAATATATTTTATTATATAAATATATATTATATTATATAATATAATATATATTAATATAAATATATATTAT 999 MaxDepth MantaINS:0:775:775:0:1:0 MantaINS:0:775:775:0:1:0_bp2 INS 129 TATATATATTATTATATAATATATATTATATAATATATTTTATTATATAATATAATATATATTATATAATATAATATATTTTATTATATAAATATATATTATATTATATAATATAATATATATTAATATAAATATATATTAT 142 0 #> MantaINS:35:0:0:0:0:0_bp1 1 1004204 + | NA G GGCCACGCGGGCTGTGCAGATGCAGGTGCGGCGGGGCGGGGCCACGCGGGCTGTGAAGGTGCAGGTGCGGCGGGGCAGA 999 PASS MantaINS:35:0:0:0:0:0 MantaINS:35:0:0:0:0:0_bp2 INS 78 GCCACGCGGGCTGTGCAGATGCAGGTGCGGCGGGGCGGGGCCACGCGGGCTGTGAAGGTGCAGGTGCGGCGGGGCAGA 78 10 #> MantaDEL:92:0:0:0:0:0_bp1 1 1161716 + | NA CCTGTACGGTCAGGAGGAAACATGGCACCTCCCCTCTGGGGGCTCTTTCCAGAAACCCTCAACCC CT 999 PASS MantaDEL:92:0:0:0:0:0 MantaDEL:92:0:0:0:0:0_bp2 DEL -63 T 1 0 #> MantaDEL:127:0:0:0:0:0_bp1 1 1162672 + | NA GGCGGGAAGGCGAGCTCGTGGCCAGGCCCTGCGGGAAGGCGAGCTCGTGGCCAGGCCCGGCGGGAAGGCGAGCTCGTGGCCAGGCCCGGCGGGAAGGCGAGCTCGTGGCCAGGCCCGGCGGGAAGGCGAGCTCGTGGCCAGGCCCTGCGGGAAGGCGAGCTCGTGGCCAGGCCCT G 440 PASS MantaDEL:127:0:0:0:0:0 MantaDEL:127:0:0:0:0:0_bp2 DEL -174 0 9 #> MantaDEL:130:0:0:0:0:0_bp1 1 1183434 + | NA CAGGCTGGATCTCCAACTCTGACCTACAGGCAGGAAAGTGGGCAGCCCTGGGAGGCTGGACTGAGGGAGGCTGGACTTCCCACTCAGGCCTACACGCAGGAAAATGGGCAGCCCTGGGAGGCTGGACCGAGGGAGGCTGGGCCTCCCACTCCACCCTACAGGCCAGGACACGGGCAGCCCTGGGAGGCTAGACCGAGGGAGGCTGGGCCTCCCATCTACCCTACAGGCCGGGACACAGGCAGCCCTGGGAGGCTGTACCGAGGG C 643 PASS MantaDEL:130:0:0:0:0:0 MantaDEL:130:0:0:0:0:0_bp2 DEL -263 0 7 #> MantaDEL:107:0:0:0:1:0_bp1 1 1302326 + | NA GAATGAGTGGATTGGTGAGTGAATTGGTGAGTTGAATTGGTGTGTGTAGTGGATGAGTGTGGATGAATGTGAATTGGCGAGTATGGATGTGTGAATTGGTGAGTGTGAATGTGTGGATTGGTGAGTGAATTGGTGAGTTGAATTGGTGTGTGTAGTGTGGATGAGTGTGAATTGGCGAGTGTGGATGAGTGTGAATTGGTGAGTGTG GCAGTGTGAA 999 PASS MantaDEL:107:0:0:0:1:0 MantaDEL:107:0:0:0:1:0_bp2 DEL -197 CAGTGTGAA 9 0 #> ------- #> seqinfo: 25 sequences from an unspecified genome ``` Note that `StructuralVariantAnnotation` requires the `GRanges` object to be composed entirely of valid breakpoints. Please consult the vignette of the `StructuralVariantAnnotation` package for ensuring breakpoint consistency. ### Identifying Retrotransposed Transcripts The package provides `rtDetect` to identify RTs using the provided SV calls. This is achieved by detecting intronic deletions, which are breakpoints at exon-intron (and intron-exon) boundaries of a transcript. Fusions consisting of an exon boundary and a second genomic location are reported as potential insertion sites. Due to the complexity of RT events, insertion sites can be discovered on both left and right sides, only one side, or none at all. ``` r library(TxDb.Hsapiens.UCSC.hg19.knownGene) #> Loading required package: GenomicFeatures #> Loading required package: AnnotationDbi library(dplyr) #> #> Attaching package: 'dplyr' #> The following object is masked from 'package:AnnotationDbi': #> #> select #> The following object is masked from 'package:VariantAnnotation': #> #> select #> The following objects are masked from 'package:Biostrings': #> #> collapse, intersect, setdiff, setequal, union #> The following object is masked from 'package:XVector': #> #> slice #> The following object is masked from 'package:matrixStats': #> #> count #> The following object is masked from 'package:Biobase': #> #> combine #> The following objects are masked from 'package:GenomicRanges': #> #> intersect, setdiff, union #> The following object is masked from 'package:GenomeInfoDb': #> #> intersect #> The following objects are masked from 'package:IRanges': #> #> collapse, desc, intersect, setdiff, slice, union #> The following objects are masked from 'package:S4Vectors': #> #> first, intersect, rename, setdiff, setequal, union #> The following objects are masked from 'package:BiocGenerics': #> #> combine, intersect, setdiff, union #> The following objects are masked from 'package:stats': #> #> filter, lag #> The following objects are masked from 'package:base': #> #> intersect, setdiff, setequal, union hg19.genes <- TxDb.Hsapiens.UCSC.hg19.knownGene RT_vcf <- readVcf(system.file("extdata", "diploidSV.vcf", package = "svaRetro")) RT_gr <- StructuralVariantAnnotation::breakpointRanges(RT_vcf, nominalPosition=TRUE) RT <- rtDetect(RT_gr, hg19.genes, maxgap=50, minscore=0.3) ``` The output is a list of `GRanges` object consisting of two sets of `GRanges` calls, `insSite` and `junctions`, containing candidate insertion sites and exon-exon junctions respectively. Candidate insertion sites are annotated by the source transcripts and whether exon-exon junctions are detected for the source transcripts. RT junction breakends are annotated by the UCSC exon IDs, corresponding transcripts, and NCBI gene symbols. ``` r RT$SKA3 #> $junctions #> GRanges object with 14 ranges and 16 metadata columns: #> seqnames ranges strand | paramRangeID REF ALT QUAL FILTER sourceId partner svtype svLen insSeq insLen HOMLEN exon txs exons gene_symbol #> <Rle> <IRanges> <Rle> | <factor> <character> <character> <numeric> <character> <character> <character> <character> <numeric> <character> <numeric> <numeric> <integer> <list> <list> <list> #> MantaDEL:245251:6:6:0:0:0_bp2 13 21729832 - | NA TCTGCAACAGATACAAATAACAAATATCAATTTAATAAAATTAAAAGCCATTAAGACAAATGACACAATACTGTGGCTATATATTTTACACTTATAAAATAATTGAGGATAGATTCCCACTGATATCATTAAACTGGATAATTCGGGAATCTGAGATTCAGGGATCACAAGTTCTATATCAAAAGATAGAGACAGGCTATTAACTTAAGCTGGCAAATGTCAATTAAAAACAAAATTTTTACCAATATTCAAATGTTAATTTTTTTTTTTTTTTTTTAGATGGAGTCTCGCTCTGTTGCCAGGCTGGAGTGCAGTGGCATGATCTTGGCTCACTGCAACCTCCGCCTCCCAGATTCAAGCGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTACAGGTGTGCACCACCACACCTGGCTAATTTTTGTATTTTTAGTAGAGACGAGGTTTCACCATGTTGGTCAGGATGGTCAAATGTTAATTTTTAAATGTCCTCCTCAAATAACACATGAACTTTCTTTACAAAGGTAACATACTCAC T 999 PASS MantaDEL:245251:6:6:0:0:0 MantaDEL:245251:6:6:0:0:0_bp1 DEL -542 0 1 176912 uc001unt.3,uc001unv.3 176912 SKA3 #> MantaDEL:245251:5:8:0:0:0_bp2 13 21732061 - | NA G <DEL> 999 PASS MantaDEL:245251:5:8:0:0:0 MantaDEL:245251:5:8:0:0:0_bp1 DEL -2110 <NA> 0 2 176913 uc001unt.3,uc001unv.3 176913 SKA3 #> MantaDEL:245251:5:9:0:0:0_bp2 13 21734038 - | NA A <DEL> 525 PASS MantaDEL:245251:5:9:0:0:0 MantaDEL:245251:5:9:0:0:0_bp1 DEL -1776 <NA> 0 4 176914 uc001unt.3,uc001unu.3,uc001unv.3 176914 SKA3 #> MantaDEL:245251:7:10:0:0:0_bp2 13 21735929 - | NA T <DEL> 539 PASS MantaDEL:245251:7:10:0:0:0 MantaDEL:245251:7:10:0:0:0_bp1 DEL -1802 <NA> 0 1 176915 uc001unt.3,uc001unu.3,uc001unv.3 176915 SKA3 #> MantaDEL:245251:4:11:0:0:0_bp2 13 21742127 - | NA A <DEL> 999 PASS MantaDEL:245251:4:11:0:0:0 MantaDEL:245251:4:11:0:0:0_bp1 DEL -6112 <NA> 0 2 176916 uc001unt.3,uc001unu.3,uc001unv.3 176916 SKA3 #> ... ... ... ... . ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... ... #> MantaDEL:245251:5:9:0:0:0_bp1 13 21732261 + | NA A <DEL> 525 PASS MantaDEL:245251:5:9:0:0:0 MantaDEL:245251:5:9:0:0:0_bp2 DEL -1776 <NA> 0 4 176913 uc001unt.3,uc001unu.3,uc001unv.3 176913 SKA3 #> MantaDEL:245251:7:10:0:0:0_bp1 13 21734126 + | NA T <DEL> 539 PASS MantaDEL:245251:7:10:0:0:0 MantaDEL:245251:7:10:0:0:0_bp2 DEL -1802 <NA> 0 1 176914 uc001unt.3,uc001unu.3,uc001unv.3 176914 SKA3 #> MantaDEL:245251:4:11:0:0:0_bp1 13 21736014 + | NA A <DEL> 999 PASS MantaDEL:245251:4:11:0:0:0 MantaDEL:245251:4:11:0:0:0_bp2 DEL -6112 <NA> 0 2 176915 uc001unt.3,uc001unu.3,uc001unv.3 176915 SKA3 #> MantaDEL:245251:3:4:0:0:0_bp1 13 21742538 + | NA A <DEL> 999 PASS MantaDEL:245251:3:4:0:0:0 MantaDEL:245251:3:4:0:0:0_bp2 DEL -3939 <NA> 0 2 176916 uc001unt.3,uc001unu.3,uc001unv.3 176916 SKA3 #> MantaDEL:245251:2:3:0:0:0_bp1 13 21746642 + | NA T <DEL> 999 PASS MantaDEL:245251:2:3:0:0:0 MantaDEL:245251:2:3:0:0:0_bp2 DEL -3870 <NA> 0 2 176917 uc001unt.3,uc001unu.3,uc001unv.3 176917 SKA3 #> ------- #> seqinfo: 25 sequences from an unspecified genome #> #> $insSite #> GRanges object with 4 ranges and 17 metadata columns: #> seqnames ranges strand | paramRangeID REF ALT QUAL FILTER sourceId partner svtype svLen insSeq insLen HOMLEN exons txs rtFound rtFoundSum gene_symbol #> <Rle> <IRanges> <Rle> | <factor> <character> <character> <numeric> <character> <character> <character> <character> <numeric> <character> <numeric> <numeric> <list> <list> <list> <logical> <list> #> MantaBND:245251:0:3:0:0:0:0 13 21746762 + | NA T T[11:108585702[ 49 PASS MantaBND:245251:0:3:0:0:0:0 MantaBND:245251:0:3:0:0:0:1 BND NA 0 0 176918 uc001unt.3,uc001unu.3 TRUE,TRUE TRUE SKA3 #> MantaDEL:245251:5:6:0:0:0_bp2 13 21731995 - | NA T <DEL> 283 PASS MantaDEL:245251:5:6:0:0:0 MantaDEL:245251:5:6:0:0:0_bp1 DEL -2734 <NA> 0 0 176911 uc001unt.3,uc001unu.3,uc001unv.3 TRUE,TRUE,TRUE TRUE SKA3 #> MantaBND:245251:0:3:0:0:0:1 11 108585702 - | NA T ]13:21746762]T 49 PASS MantaBND:245251:0:3:0:0:0:1 MantaBND:245251:0:3:0:0:0:0 BND NA 0 0 NA NA NA <NA> NA #> MantaDEL:245251:5:6:0:0:0_bp1 13 21729260 + | NA T <DEL> 283 PASS MantaDEL:245251:5:6:0:0:0 MantaDEL:245251:5:6:0:0:0_bp2 DEL -2734 <NA> 0 0 NA NA NA <NA> NA #> ------- #> seqinfo: 25 sequences from an unspecified genome ``` ## Visualising breakpoint pairs via circos plots One way of visualising RT is by circos plots. Here we use the package [`circlize`](https://doi.org/10.1093/bioinformatics/btu393) to demonstrate the visualisation of insertion site and exon-exon junctions. To generate a simple circos plot of RT event with SKA3 transcript: ``` r library(circlize) rt_chr_prefix <- c(RT$SKA3$junctions, RT$SKA3$insSite) seqlevelsStyle(rt_chr_prefix) <- "UCSC" pairs <- breakpointgr2pairs(rt_chr_prefix) pairs ``` To see supporting breakpoints clearly, we generate the circos plot according to the loci of event. ``` r circos.initializeWithIdeogram( data.frame(V1=c("chr13", "chr11"), V2=c(21720000,108585000), V3=c(21755000,108586000), V4=c("q12.11","q24.3"), V5=c("gneg","gpos50"))) circos.genomicLink(as.data.frame(S4Vectors::first(pairs)), as.data.frame(S4Vectors::second(pairs))) ``` ![](README-unnamed-chunk-8-1.png) ``` r circos.clear() ```