katdetectr 1.9.0
To install this package, start R (version “4.2”) and enter:
# Install via BioConductor
if (!require("BiocManager", quietly = TRUE)) {
install.packages("BiocManager")
}
BiocManager::install("katdetectr")
# or the latest version
BiocManager::install("katdetectr", version = "devel")
# or from github
devtools::install_github("https://github.com/ErasmusMC-CCBC/katdetectr")
After installation, you can load the package with:
library(katdetectr)
katdetectr
is an R package for the detection, characterization and visualization of localized hypermutated regions, often referred to as kataegis.
The general workflow of katdetectr
can be summarized as follows:
Please see the Application Note (under submission) for additional background and details of katdetectr
. The application note also contains a section regarding the performance of katdetectr
and other kataegis detection packages: maftools, ClusteredMutations, SeqKat, kataegis, and SigProfilerClusters.
We have made katdetectr
available on BioConductor as this insures reliability, and operability on common operating systems (Linux, Mac, and Windows). We designed katdetectr
such that it fits well in the BioConductor ecosystem which allows katdetectr
to be used easily in combination with other BioConductor packages and analysis pipelines.
Below, the katdetectr
workflow is performed in a step-by-step manner on publicly-available datasets that are included within this package.
Genomic variants from multiple common data-formats (VCF/MAF and VRanges objects) can be imported into katdetectr
.
# Genomic variants stored within the VCF format.
pathToVCF <- system.file(package = "katdetectr", "extdata/CPTAC_Breast.vcf")
# Genomic variants stored within the MAF format.
pathToMAF <- system.file(package = "katdetectr", "extdata/APL_primary.maf")
# In addition, we can generate synthetic genomic variants including kataegis foci using generateSyntheticData().
# This functions returns a VRanges object.
syntheticData <- generateSyntheticData(nBackgroundVariants = 2500, nKataegisFoci = 1)
Using detectKataegis()
, we can employ changepoint detection to detect distinct clusters of varying intermutation distance (IMD), mutation rate and size.
Imported genomic variant data can contain either single or multiple samples, in the latter case records can be aggregated by setting aggregateRecords = TRUE
. Overlapping genomic variants (e.g., an InDel and SNV) are reduced into a single record.
From the genomic variants data the IMD is calculated. Following, changepoint analysis is performed on the IMD of the genomic variants which results in segments. Lastly, a segment is labelled as kataegis foci if the segment fits the following parameters: minSizeKataegis = 6
and IMDcutoff = 1000
.
# Detect kataegis foci within the given VCF file.
kdVCF <- detectKataegis(genomicVariants = pathToVCF)
# # Detect kataegis foci within the given MAF file.
# As this file contains multiple samples, we set aggregateRecords = TRUE.
kdMAF <- detectKataegis(genomicVariants = pathToMAF, aggregateRecords = TRUE)
# Detect kataegis foci within the synthetic data.
kdSynthetic <- detectKataegis(genomicVariants = syntheticData)
All relevant input and subsequent results are stored within KatDetect
objects. Using summary()
, show()
and/or print()
, we can generate overviews of these KatDetect
object(s).
summary(kdVCF)
## Sample name: CPTAC
## Total number of genomic variants: 3684
## Total number of putative Kataegis foci: 9
## Total number of variants in a Kataegis foci: 133
print(kdVCF)
## Sample name: CPTAC
## Total number of genomic variants: 3684
## Total number of putative Kataegis foci: 9
## Total number of variants in a Kataegis foci: 133
show(kdVCF)
## Class "KatDetect" : KatDetect Object
## : S4 class containing 4 slots with names:
## kataegisFoci genomicVariants segments info
##
## Created on: Tue Oct 29 18:02:26 2024
## katdetectr version: 1.9.0
##
## summary:
## --------------------------------------------------------
## Sample name: CPTAC
## Total number of genomic variants: 3684
## Total number of putative Kataegis foci: 9
## Total number of variants in a Kataegis foci: 133
## --------------------------------------------------------
# Or simply:
kdVCF
## Class "KatDetect" : KatDetect Object
## : S4 class containing 4 slots with names:
## kataegisFoci genomicVariants segments info
##
## Created on: Tue Oct 29 18:02:26 2024
## katdetectr version: 1.9.0
##
## summary:
## --------------------------------------------------------
## Sample name: CPTAC
## Total number of genomic variants: 3684
## Total number of putative Kataegis foci: 9
## Total number of variants in a Kataegis foci: 133
## --------------------------------------------------------
Underlying data can be retrieved from a KatDetect
objects using the following getter
functions:
getGenomicVariants()
returns: VRanges object. Processed genomic variants used as input for changepoint detection. This VRanges contains the genomic location, IMD, and kataegis status of each genomic variantgetSegments()
returns: GRanges object. Contains the segments as derived from changepoint detection. This Granges contains the genomic location, total number of variants, mean IMD and, mutation rate of each segment.getKataegisFoci()
returns: GRanges object. Contains all segments designated as putative kataegis foci according the the specified parameters (minSizeKataegis and IMDcutoff). This Granges contains the genomic location, total number of variants and mean IMD of each putative kataegis focigetInfo()
returns: List object. Contains supplementary information including used parameter settings.getGenomicVariants(kdVCF)
## VRanges object with 3684 ranges and 5 metadata columns:
## seqnames ranges strand ref alt totalDepth
## <Rle> <IRanges> <Rle> <character> <characterOrRle> <integerOrRle>
## [1] chr1 935222 * C A 50
## [2] chr1 949608 * G A 50
## [3] chr1 981131 * A G 50
## [4] chr1 982722 * A G 50
## [5] chr1 1164015 * C A 50
## ... ... ... ... ... ... ...
## [3680] chrX 153594977 * G A 50
## [3681] chrX 153627839 * C T 50
## [3682] chrX 153629155 * A G 50
## [3683] chrX 153668757 * G A 50
## [3684] chrX 153764217 * C T 50
## refDepth altDepth sampleNames softFilterMatrix | revmap
## <integerOrRle> <integerOrRle> <factorOrRle> <matrix> | <list>
## [1] 20 30 CPTAC | 1
## [2] 20 30 CPTAC | 2
## [3] 20 30 CPTAC | 3
## [4] 20 30 CPTAC | 4
## [5] 20 30 CPTAC | 5
## ... ... ... ... ... . ...
## [3680] 20 30 CPTAC | 3683
## [3681] 20 30 CPTAC | 3684
## [3682] 20 30 CPTAC | 3685
## [3683] 20 30 CPTAC | 3686
## [3684] 20 30 CPTAC | 3687
## variantID IMD segmentID putativeKataegis
## <integer> <integer> <integer> <logical>
## [1] 1 935222 1 FALSE
## [2] 2 14386 1 FALSE
## [3] 3 31523 1 FALSE
## [4] 4 1591 1 FALSE
## [5] 5 181293 1 FALSE
## ... ... ... ... ...
## [3680] 3680 442 5 FALSE
## [3681] 3681 32862 6 FALSE
## [3682] 3682 1316 6 FALSE
## [3683] 3683 39602 6 FALSE
## [3684] 3684 95460 7 FALSE
## -------
## seqinfo: 23 sequences from an unspecified genome; no seqlengths
## hardFilters: NULL
getSegments(kdVCF)
## GRanges object with 452 ranges and 8 metadata columns:
## seqnames ranges strand | segmentID totalVariants
## <Rle> <IRanges> <Rle> | <numeric> <numeric>
## [1] chr1 1-3389727 * | 1 11
## [2] chr1 3389728-3428608 * | 2 4
## [3] chr1 3428609-19199400 * | 3 22
## [4] chr1 19199401-19203725 * | 4 4
## [5] chr1 19203726-19635011 * | 5 8
## ... ... ... ... . ... ...
## [448] chrX 153577919-153594977 * | 5 6
## [449] chrX 153594978-153668757 * | 6 3
## [450] chrX 153668758-155270560 * | 7 1
## [451] chrY 1-59373566 * | 1 0
## [452] chrM 1-16571 * | 1 0
## firstVariantID lastVariantID meanIMD mutationRate sampleNames
## <integer> <integer> <numeric> <numeric> <character>
## [1] 1 11 308157.00 3.24510e-06 CPTAC
## [2] 12 15 9720.25 1.02878e-04 CPTAC
## [3] 16 37 716854.18 1.39498e-06 CPTAC
## [4] 38 41 1081.25 9.24855e-04 CPTAC
## [5] 42 49 53910.75 1.85492e-05 CPTAC
## ... ... ... ... ... ...
## [448] 3675 3680 2843.17 3.51720e-04 CPTAC
## [449] 3681 3683 24593.33 4.06614e-05 CPTAC
## [450] 3684 3684 1601802.00 6.24297e-07 CPTAC
## [451] <NA> <NA> NA 0.00000e+00 CPTAC
## [452] <NA> <NA> NA 0.00000e+00 CPTAC
## IMDcutoffValues
## <numeric>
## [1] 1000
## [2] 1000
## [3] 1000
## [4] 1000
## [5] 1000
## ... ...
## [448] 1000
## [449] 1000
## [450] 1000
## [451] 1000
## [452] 1000
## -------
## seqinfo: 25 sequences from an unspecified genome; no seqlengths
getKataegisFoci(kdVCF)
## GRanges object with 9 ranges and 7 metadata columns:
## seqnames ranges strand | fociID sampleNames totalVariants
## <Rle> <IRanges> <Rle> | <integer> <character> <numeric>
## [1] chr3 58108856-58111467 * | 1 CPTAC 7
## [2] chr6 32489708-32489949 * | 2 CPTAC 13
## [3] chr6 32632598-32632770 * | 3 CPTAC 8
## [4] chr6 151669875-151674326 * | 4 CPTAC 7
## [5] chr8 144991205-144999107 * | 5 CPTAC 25
## [6] chr11 62285208-62298597 * | 6 CPTAC 25
## [7] chr14 105405599-105419557 * | 7 CPTAC 23
## [8] chr15 86122654-86124712 * | 8 CPTAC 6
## [9] chr19 4510560-4513559 * | 9 CPTAC 19
## firstVariantID lastVariantID meanIMD IMDcutoff
## <numeric> <integer> <numeric> <numeric>
## [1] 782 788 435.1667 1000
## [2] 1251 1263 20.0833 1000
## [3] 1273 1280 24.5714 1000
## [4] 1358 1364 741.8333 1000
## [5] 1659 1683 329.2500 1000
## [6] 2112 2136 557.8750 1000
## [7] 2591 2613 634.4545 1000
## [8] 2687 2692 411.6000 1000
## [9] 3139 3157 166.6111 1000
## -------
## seqinfo: 25 sequences from an unspecified genome; no seqlengths
getInfo(kdVCF)
## $sampleName
## [1] "CPTAC"
##
## $totalGenomicVariants
## [1] 3684
##
## $totalKataegisFoci
## [1] 9
##
## $totalVariantsInKataegisFoci
## [1] 133
##
## $version
## [1] "1.9.0"
##
## $date
## [1] "Tue Oct 29 18:02:26 2024"
##
## $parameters
## $parameters$minSizeKataegis
## [1] 6
##
## $parameters$IMDcutoff
## [1] 1000
##
## $parameters$test.stat
## [1] "Exponential"
##
## $parameters$penalty
## [1] "BIC"
##
## $parameters$pen.value
## [1] 0
##
## $parameters$method
## [1] "PELT"
##
## $parameters$minseglen
## [1] 2
##
## $parameters$aggregateRecords
## [1] FALSE
Per sample, we can visualize the IMD, detected segments and putative kataegis foci as a rainfall plot. In addition, this allows for a per-chromosome approach which can highlight the putative kataegis foci.
rainfallPlot(kdVCF)