Provided by: mapdamage_2.2.2+dfsg-1_all
NAME
mapDamage - tracking and quantifying damage patterns in ancient DNA sequences
SYNOPSIS
mapDamage [options] -i BAMfile -r reference.fasta
DESCRIPTION
MapDamage is a computational framework written in Python and R, which tracks and quantifies DNA damage patterns among ancient DNA sequencing reads generated by Next- Generation Sequencing platforms.
OPTIONS
--version show program's version number and exit -h, --help show this help message and exit Input files: -i FILENAME, --input=FILENAME SAM/BAM file, must contain a valid header, use '-' for reading a BAM from stdin -r REF, --reference=REF Reference file in FASTA format General options: -n DOWNSAMPLE, --downsample=DOWNSAMPLE Downsample to a randomly selected fraction of the reads (if 0 < DOWNSAMPLE < 1), or a fixed number of randomly selected reads (if DOWNSAMPLE >= 1). By default, no downsampling is performed. --downsample-seed=DOWNSAMPLE_SEED Seed value to use for downsampling. See documentation for py module 'random' for default behavior. --merge-reference-sequences Ignore referece sequence names when tabulating reads (using '*' instead). Useful for alignments with a large number of reference sequnces, which may otherwise result in excessive memory or disk usage due to the number of tables generated. -l LENGTH, --length=LENGTH read length, in nucleotides to consider [70] -a AROUND, --around=AROUND nucleotides to retrieve before/after reads [10] -Q MINQUAL, --min-basequal=MINQUAL minimum base quality Phred score considered, Phred-33 assumed [0] -d FOLDER, --folder=FOLDER folder name to store results [results_FILENAME] -f, --fasta Write alignments in a FASTA file --plot-only Run only plotting from a valid result folder -q, --quiet Disable any output to stdout -v, --verbose Display progression information during parsing --mapdamage-modules=MAPDAMAGE_MODULES Override the system wide installed mapDamage module Options for graphics: -y YMAX, --ymax=YMAX graphical y-axis limit for nucleotide misincorporation frequencies [0.3] -m READPLOT, --readplot=READPLOT read length, in nucleotides, considered for plotting nucleotide misincorporations [25] -b REFPLOT, --refplot=REFPLOT the number of reference nucleotides to consider for plotting base composition in the region located upstream and downstream of every read [10] -t TITLE, --title=TITLE title used for plots [] Options for the statistical estimation: --rand=RAND Number of random starting points for the likelihood optimization [30] --burn=BURN Number of burnin iterations [10000] --adjust=ADJUST Number of adjust proposal variance parameters iterations [10] --iter=ITER Number of final MCMC iterations [50000] --forward Using only the 5' end of the seqs [False] --reverse Using only the 3' end of the seqs [False] --var-disp Variable dispersion in the overhangs [False] --jukes-cantor Use Jukes Cantor instead of HKY85 [False] --diff-hangs The overhangs are different for 5' and 3' [False] --fix-nicks Fix the nick frequency vector (Only C.T from the 5' end and G.A from the 3' end) [False] --use-raw-nick-freq Use the raw nick frequency vector without smoothing [False] --single-stranded Single stranded protocol [False] --theme-bw Use black and white theme in post. pred. plot [False] --seq-length=SEQ_LENGTH How long sequence to use from each side [12] --stats-only Run only statistical estimation from a valid result folder --rescale Rescale the quality scores in the BAM file using the output from the statistical estimation --rescale-only Run only rescaling from a valid result folder --rescale-out=RESCALE_OUT Write the rescaled BAM to this file --no-stats Disabled statistical estimation, active by default --check-R-packages Check if the R modules are working
BUGS
Report bugs to aginolhac@snm.ku.dk, MSchubert@snm.ku.dk or jonsson.hakon@gmail.com
AUTHOR
This manpage was written by Andreas Tille for the Debian distribution and can be used for any other usage of the program.