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# The easiest way is to install from CRAN:
install.packages('kmeRtone')
# Otherwise, please download the latest release, then install with
0.tar.gz R CMD INSTALL kmeRtone_1.
Alternatively, download and install using the latest release files from here.
kmeRtone
operationsKmeRtone
contains many modules. The core module (SCORE)
calculates the z-score of k-meric enrichment and depletion. Briefly, the
input source are case coordinates for the DNA-related phenomenon under
study (e.g. DNA damage, DNA binding, DNA breakage, etc.) and a reference
to the chromosome-separated FASTA files. KmeRtone
calculates the k-mer z-score for every k-mer sequence and generates a
table of all k-mer sequences and their associated z-scores. Here, the
resulting z-scores indicate how enriched (\(z
\gg 1\)) or depleted (\(z \ll
1\)) a given k-mer sequence is under the studied phenomenon.
kmeRtone
Input
Flags - OverviewHere, we highlight some of the key arguments as input to the
kmeRtone
function. Please refer to the documentation of the
function for further details on the required and optional arguments.
Case coordinate
Flag | Class | Description |
---|---|---|
case.coor.path | <character> |
A path to a folder containing chromosome-separated genomic coordinates or chromosome-combined BED files. This flag is ignored when case.coor is not NULL. |
case | <genomic.coordinate> |
A pre-loaded <genomic.coordinate> class
object.. |
Genome
Flag | Class | Description |
---|---|---|
genome.name | <character> |
Available: “hg19” or “hg38”. User’s own genome name. |
genome.path | <character> |
A path to a user’s folder containing
chromosome-separated fasta files. Default is NULL . The file
name must be the name of chromosome. |
genome | <genome> |
Pre-loaded <genome> class object. Default is
NULL . The two flags above are ignored when this is
used. |
Case characteristics
Flag | Class | Description |
---|---|---|
strand.sensitive | <bool> |
Does strand polarity matter? |
single.case.length | <int> |
Default is NULL for unspecified/varied length. |
case.pattern | <character> |
Default is NULL for no pattern. |
Case coordinate operation
Flag | Class | Description |
---|---|---|
rm.case.kmer.overlaps | <bool> |
Default is TRUE . This is important to remove
neighbouring effect. |
merge.replicates | <bool> |
Default is TRUE . When merging replicates, duplicated
coordinates coming from different replicates are removed. |
k | <int> |
Length of k-mer |
ctrl.rel.pos | <character> |
Position of control regions relative to the case positions. Input is
a vector of length two: c(from, to) |
Other module flags
Flag | Class | Description |
---|---|---|
kmer.table | <data.table> |
Pre-loaded k-mer table with calculated score. Default is
NULL . |
kmeRtone module
Flag | Class | Description |
---|---|---|
module | <character> |
Available module: “score”, “tune”, “explore”, “evolution”, “genic element”, “cancer”, etc. |
Other
Flag | Class | Description |
---|---|---|
ncpu | <int> |
Number of CPU cores. Default is 1. |
output.path | <character> |
A path to an output folder. Default is “data/” |
Flag | Description |
---|---|
single.case.length | The case length unit is number of nucleotide. In an event where case happens in between two nucleotide e.g. DNA breakage, the case.length is 2 nt. |
case.coor.path | Three situations can happen. (1) A folder containing a BED file. A
second or more BED files indicates a presence of replicates. (2) A
folder containing chromosome-separated files. The file name must be the
name of chromosome. (3) A folder containing sub-folders of
chromosome-separated files, indicating a presence of replicates. In
situation (2) and (3), the coordinates must be a 1-based index due to
R language conventions. Alternatively, user can specify
this with the case.coor.1st.idx argument |
kmeRtone introduce two class objects: <genome>
and
<genomic.coordinate>
<genome>
kmeRtone comes with two pre-built <genome>
: hg19
and hg38. The <genome>
s are saved as uncompressed RDS
binary object for fast loading. print.genome
function is
built to print the <genome>
object. It will show the
genome name (e.g. hg19) and genome length by chromosome. The default
base::print
showing the very long sequence will crash the R
console.
<genome>
is an S3-class object with the following
contents:
```{bash, include = TRUE} $seq named
$chr.names
$length
$name
2. `<genomic.coordinate>`
`<genomic.coordinate>` is an S3-class object. The reason for building this class is to reduce data redundancy in genomic coordinate table (e.g. repeated number of chromosome name and unnecessary column end when case length is fixed). It also helps with organisation of kmeRtone configuration (e.g. k-mer size, case length, etc.) as the `<genomic.coordinate>` object will carry and contain those information. It utilises `<data.table>` to use its inherent feature to update by reference (instead of memory copy) for genomic coordinate table and coordinate status (case vs. k-mer coordinate). This will help to reduce memory (RAM) consumption and keep track what the coordinates refer to (whether the case itself or k-mer). The contents of the `<genomic.coordinate>` object are as follow:
```{bash, include = TRUE}
$chr1
<data.table>
start strand ...
1: 12 +
2: 16 +
3: 499 -
...
$chr2 .__C__.externalptr
$chr3 ...
$chr... ...
$chr.names
<character> vector
c(chr1, chr2, ...)
$status
<data.table> single row
is.kmer
1: TRUE
$case.length
<character>
2
$case.pattern
<character> vector
c(CT, TT, ...)
Table column name is written in lowercase and snake_case.
Function name is written in camelCase. The function filename if it is saved will be the same like the function name except for workflow functions which begin with capital case corresponds to their module letter.
Module workflow code begins with a function calling (left-aligned) and ends with variable assignment (right-aligned).
Workflow boolean is designed to make it natural to read in
English e.g. if(coor$status$is.kmer)
or
if(coor$is.strand.sensitive)
.
Looping uses singular and plural as variable name
i.e. for (chr.name in chr.names)
.
The code finish at a standard column number 80 for better viewing.
This symbol <> refers to R class object
e.g. <character>
Below is an example code that generates random genomic coordinates
and runs the default kmeRtone SCORE
function to quantify
the k-meric enrichment and depletion.
For a detailed explanation, please refer to the
kmeRtone.pdf
in the vignettes
folder.
library(data.table)
library(kmeRtone)
<- tempdir()
temp_dir
#' 1. Randomly generate genomic positions and save results
dir.create("./data", showWarnings = FALSE)
set.seed(1234)
<- character(22)
temp_files for(chr in 1:22){
<- data.table(
genomic_coor seqnames = paste0("chr", chr),
start = sample(
x = 10000:100000,
size = 1000,
replace = FALSE
),width = 2
)
<- file.path(temp_dir, paste0("chr", chr, ".csv"))
f fwrite(genomic_coor, f)
<- f
temp_files[chr]
}
#' 2. Run kmeRtone `score` function
<- tempdir()
temp_dir_genome ::kmeRtone(
kmeRtonecase.coor.path = temp_dir,
genome.name = "hg19",
genome.path = temp_dir_genome,
strand.sensitive = FALSE,
k = 2,
ctrl.rel.pos = c(80, 500),
case.pattern = NULL,
single.case.len = 2,
output.dir = temp_dir,
module = "score",
rm.case.kmer.overlaps = FALSE,
merge.replicate = TRUE,
kmer.table = NULL,
verbose = TRUE
)
The above should generate the below output
------------------------------------------------------------
Extraction of Case K-mers
------------------------------------------------------------
Extracting 2-mers from chr1.............DONE! -- 3.23 secs
Extracting 2-mers from chr2.............DONE! -- 3.28 secs
Extracting 2-mers from chr3.............DONE! -- 2.64 secs
Extracting 2-mers from chr4.............DONE! -- 2.56 secs
Extracting 2-mers from chr5.............DONE! -- 2.31 secs
Extracting 2-mers from chr6.............DONE! -- 2.33 secs
Extracting 2-mers from chr7.............DONE! -- 2.04 secs
Extracting 2-mers from chr8.............DONE! -- 1.97 secs
Extracting 2-mers from chr9.............DONE! -- 1.75 secs
Extracting 2-mers from chr10............DONE! -- 1.82 secs
Extracting 2-mers from chr11............DONE! -- 1.75 secs
Extracting 2-mers from chr12............DONE! -- 1.8 secs
Extracting 2-mers from chr13............DONE! -- 1.35 secs
Extracting 2-mers from chr14............DONE! -- 1.25 secs
Extracting 2-mers from chr15............DONE! -- 1.22 secs
Extracting 2-mers from chr16............DONE! -- 1.04 secs
Extracting 2-mers from chr17............DONE! -- 0.97 secs
Extracting 2-mers from chr18............DONE! -- 0.97 secs
Extracting 2-mers from chr19............DONE! -- 0.74 secs
Extracting 2-mers from chr20............DONE! -- 0.71 secs
Extracting 2-mers from chr21............DONE! -- 0.53 secs
Extracting 2-mers from chr22............DONE! -- 0.55 secs
Total time taken: 37.2 secs
------------------------------------------------------------
Extraction of Control K-mers
------------------------------------------------------------
Building control regions of chr1........DONE! -- 3.14 secs
Building control regions of chr2........DONE! -- 3.14 secs
Building control regions of chr3........DONE! -- 2.57 secs
Building control regions of chr4........DONE! -- 2.56 secs
Building control regions of chr5........DONE! -- 2.31 secs
Building control regions of chr6........DONE! -- 2.28 secs
Building control regions of chr7........DONE! -- 2.06 secs
Building control regions of chr8........DONE! -- 1.98 secs
Building control regions of chr9........DONE! -- 1.77 secs
Building control regions of chr10.......DONE! -- 1.78 secs
Building control regions of chr11.......DONE! -- 1.9 secs
Building control regions of chr12.......DONE! -- 1.79 secs
Building control regions of chr13.......DONE! -- 1.36 secs
Building control regions of chr14.......DONE! -- 1.32 secs
Building control regions of chr15.......DONE! -- 1.16 secs
Building control regions of chr16.......DONE! -- 1.06 secs
Building control regions of chr17.......DONE! -- 1.06 secs
Building control regions of chr18.......DONE! -- 0.95 secs
Building control regions of chr19.......DONE! -- 0.71 secs
Building control regions of chr20.......DONE! -- 0.76 secs
Building control regions of chr21.......DONE! -- 0.53 secs
Building control regions of chr22.......DONE! -- 0.63 secs
Total time taken: 36.97 secs
Extracting 2-mers from chr1.............DONE! -- 3.11 secs
Extracting 2-mers from chr2.............DONE! -- 3.13 secs
Extracting 2-mers from chr3.............DONE! -- 2.62 secs
Extracting 2-mers from chr4.............DONE! -- 2.43 secs
Extracting 2-mers from chr5.............DONE! -- 2.41 secs
Extracting 2-mers from chr6.............DONE! -- 2.22 secs
Extracting 2-mers from chr7.............DONE! -- 2.17 secs
Extracting 2-mers from chr8.............DONE! -- 1.93 secs
Extracting 2-mers from chr9.............DONE! -- 1.86 secs
Extracting 2-mers from chr10............DONE! -- 1.78 secs
Extracting 2-mers from chr11............DONE! -- 1.85 secs
Extracting 2-mers from chr12............DONE! -- 1.76 secs
Extracting 2-mers from chr13............DONE! -- 1.31 secs
Extracting 2-mers from chr14............DONE! -- 1.32 secs
Extracting 2-mers from chr15............DONE! -- 1.18 secs
Extracting 2-mers from chr16............DONE! -- 1.09 secs
Extracting 2-mers from chr17............DONE! -- 1.02 secs
Extracting 2-mers from chr18............DONE! -- 1.07 secs
Extracting 2-mers from chr19............DONE! -- 0.68 secs
Extracting 2-mers from chr20............DONE! -- 0.72 secs
Extracting 2-mers from chr21............DONE! -- 0.53 secs
Extracting 2-mers from chr22............DONE! -- 0.55 secs
Total time taken: 36.97 secs
------------------------------------------------------------
Calculation of K-mer Susceptibility
------------------------------------------------------------
The 2-mer scores are saved at {temp_dir}/score_2-mer.csv
FINISH! Total time taken: 1.85 mins
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.