Awesome
Merfin
Improved variant filtering and polishing via k-mer validation
Installation
- Required: git >=v.2.12, gcc >=v7.1 with OMP (only for parallelization)
git clone https://github.com/arangrhie/merfin.git
cd merfin/src
make -j 12
During installation, meryl
and meryl-utility
are cloned as submodules, and meryl
, merfin
will be installed under merfin/build/bin/
.
Installation will take less than a minute on a typical computer.
- Recommended: GenomeScope 2.0 for polishing and assembly evaluation
Running Merfin
More details with examples and expected run times can be found in the WIKI. Please read it through before running Merfin.
Merfin can be used to:
- filter any variant calls for accurate genotyping (
-filter
: reference is from another individual, i.e. GRCh38) - assess collapsed or duplicated region of the assembly (
-hist
or-dump
) - QV* for all scaffolds and the assembly (
-hist
) - K* completeness (
-completeness
) - filter variant calls for polishing
- Reference is from the same individual:
-polish
(usesk*
) - Reference is partially from the same individual, or copy-number estimates are unstable. This mode disables
k*
.-better
: Almost identical to-polish
, withk*
disabled (deprecated)-loose
: Remove variants only when the num. missing (error) k-mers increase. Neutral alternate paths that score equally to the reference path are included.-strict
: Include variants only when the num. missing (error) k-mers decrease. Neutral alternative paths that score equally to the reference path are excluded
- Reference is from the same individual:
Updates
- 2022-12-02
-better
,-loose
,-strict
modes used for polishing the T2T-HG002XY assemblies are added
Determine kmer copy numbers
Except for the -filter
mode, a haploid/diploid peak estimate must be provided (-peak
).
This can be obtained from the kmer histogram or computed using tools such as GenomeScope 2.0 (kcov value).
As a rule of thumb, the -peak
should be chosen from:
- haploid peak: partially-phased (assembly has both primary and alternate haplotigs) or fully-phased assemblies (i.e. trio-binning, trio-hifiasm, ...).
- diploid (i.e. twice the haploid peak): pseudo-haploid assembly (haploid representation of a diploid genome)
In addition to the -peak
, we recommend to provide a lookup table of kmer multiplicities with fitted copy numbers and probabilities (-prob
).
The lookup table can be generated with --fitted_hist
option we added to GenomeScope 2.0. The probability is estimated for 0 to 4-copy kmer multiplicity and is prioritized over the estimates from -peak
. Providing the fitted probability significantly improves the accuracy of all analyses.
Once downloaded and installed, run GenomeScope using the following options:
Rscript genomescope.R -i <kmer_histogram> -k <k_size> -o <output_folder> -p <ploidy> --fitted_hist [ploidy] [verbose]
kmer_histogram tab-delimited, 2-column file with (same as for Genomescope2, usually generated by meryl hist, or jellyfish)
k_size kmer length used for the histogram
ploidy haploid/diploid (default = 2)
--fitted_hist generates fitted hist plot and lookup_table.txt
Assess collapses and duplications
The output of -dump
can be further converted to .wig/.bw
tracks for visualization on IGV or UCSC Genome Browser with:
awk 'BEGIN{print "track autoScale=on"}{if($1!=chr){chr=$1; print "variableStep chrom="chr" span=1"};if($3!=0){printf $2+1"\t"$5"\n"}}' $dump_output > $dump_output.wig
# Generate chromosome sizes:
awk '$0 ~ ">" {if (NR > 1) {print c;} c=0;printf substr($0,2,100) "\t"; } $0 !~ ">" {c+=length($0);} END { print c; }' genome.fasta > chr.sizes
# Convert to bigWig:
wigToBigWig $dump_output.Wig chr.sizes $dump_output.bw
Assess correlation between data types
For multiple data types (e.g. HiFi and Illumina), the genome-wide K* agreement can be assessed by generating a cartesian plot.
Use the same output of -dump
with the scripts under scripts/cartesian_plot
.
Assess per base QV
Merfin quickly produces Merqury QV estimates for each scaffold and genome-wide averages when -hist
is used. Merqury QV estimate consider only kmers missing from the read sets. In addition, Merfin produces a QV* estimate, which accounts also for kmers that are seen in excess with respect to their expected multiplicity predicted from the reads.
These analyses can be further refined when the lookup table is provided (-prob
), Missing kmers then include plausible low frequency kmers. 0 to 4-copy kmer multiplicity estimates are weighted for the probability that the multiplicity estimate was correct.
Filter variant calls for polishing
The input .vcf
can be supplied with the -polish
option. The includes variants that passed the Merfin screening.
Once the filtered .vcf
is generated, the assembly can be polished with:
bcftools view -Oz $merfin_output.polish.vcf > $merfin_output.polish.vcf.gz #bgzip merfin output
bcftools index $merfin_output.polish.vcf.gz
bcftools consensus $merfin_output.polish.vcf.gz -f assembly.fasta -H 1 > polished_assembly.fasta # -H 1 applies only first allele from GT at each position
The -better
, -loose
, -strict
modes were developed for polishing the T2T-HG002XY chromosome, which the reference for aligning reads was created with T2T-CHM13v1.1 autosomes. Our recommendation is to use -loose
mode in case the variant call set is highly curated. More details can be found in this preprint
Helper
cd ../build/bin/
./merfin
usage: merfin <report-type> \
-sequence <seq.fasta> \
-readmers <read.meryl> \
-peak <haploid_peak> \
-prob <lookup_table> \
-vcf <input.vcf> \
-output <output>
Predict the kmer consequences of variant calls <input.vcf> given the consensus sequence <seq.fasta>
and lookup the k-mer multiplicity in the consensus sequence <seq.meryl> and in the reads <read.meryl>.
Input -sequence and -vcf files can be FASTA or FASTQ; uncompressed, gz, bz2 or xz compressed
Each readmers can be filtered by value. More advanced filtering
requires a new database to be constructed using meryl.
-min m Ignore kmers with value below m
-max m Ignore kmers with value above m
-threads t Multithreading for meryl lookup table construction, dump and hist.
Memory usage can be limited, within reason, by sacrificing kmer lookup
speed. If the lookup table requires more memory than allowed, the program
exits with an error.
-memory m Don't use more than m GB memory for loading mers
For k* based evaluation and polishing, -peak is required with optional -prob.
-peak m Required input to hard set copy 1 and infer multiplicity to copy number (recommended).
-prob file Optional input vector of probabilities. Adjust multiplicity to copy number
in case both -prob and -peak are provided, -prob takes higher priority
than -peak for multiplicity listed in the vector table.
By default, <seq.fasta>.meryl will be generated unless -seqmers is provided.
-seqmers seq.meryl Optional input for pre-built sequence meryl db
Exactly one report type must be specified.
-filter
Filter variants within distance k and their combinations by missing k-mers.
Assumes the reference (-sequence) is from a different individual.
Required: -sequence, -readmers, -vcf, and -output
Optional: -comb <N> set the max N of combinations of variants to be evaluated (default: 15)
-nosplit without this options combinations larger than N are split
-debug output a debug log, into <output>.THREAD_ID.debug.gz
Output: <output>.filter.vcf : variants chosen.
-polish
Score each variant, or variants within distance k and their combinations by k*.
Assumes the reference (-sequence) is from the same individual.
Required: -sequence, -readmers, -peak, -vcf, and -output
Optional: -comb <N> set the max N of combinations of variants to be evaluated (default: 15)
-nosplit without this options combinations larger than N are split
-prob <file> use probabilities to adjust multiplicity to copy number (recommended)
-debug output a debug log, into <output>.THREAD_ID.debug.gz
Output: <output>.polish.vcf : variants chosen.
use bcftools view -Oz <output>.polish.vcf and bcftools consensus -H 1 -f <seq.fata> to polish.
first ALT in heterozygous alleles are usually better supported by avg. |k*|.
-loose (least conservative)
Score each variant, or variants within distance k and their combinations without k*.
Assumes the reference (-sequence) is partially from the same individual.
Remove variants only when the num. missing (error) k-mers increase.
Neutral alternative paths that score equally to the reference path are included.
If multiple candidate paths tie, path with most ALT calls gets chosen.
Required: -sequence, -readmers, -peak, -vcf, and -output
Optional: -comb <N> set the max N of combinations of variants to be evaluated (default: 15)
-nosplit without this options combinations larger than N are split
-prob <file> use probabilities to adjust multiplicity to copy number (recommended)
-debug output a debug log, into <output>.THREAD_ID.debug.gz
Output: <output>.polish.vcf : variants chosen.
use bcftools view -Oz <output>.polish.vcf and bcftools consensus -H 1 -f <seq.fata> to polish.
first ALT in heterozygous alleles are usually better supported by avg. |k*|.
-strict (most conservative)
Score each variant, or variants within distance k and their combinations without k*.
Assumes the reference (-sequence) is partially from the same individual.
Include variants only when the num. missing (error) k-mers decrease.
Neutral alternative paths that score equally to the reference path are excluded.
If multiple candidate paths tie, path with least ALT calls gets chosen.
Required: -sequence, -readmers, -peak, -vcf, and -output
Optional: -comb <N> set the max N of combinations of variants to be evaluated (default: 15)
-nosplit without this options combinations larger than N are split
-prob <file> use probabilities to adjust multiplicity to copy number (recommended)
-debug output a debug log, into <output>.THREAD_ID.debug.gz
Output: <output>.polish.vcf : variants chosen.
use bcftools view -Oz <output>.polish.vcf and bcftools consensus -H 1 -f <seq.fata> to polish.
first ALT in heterozygous alleles are usually better supported by avg. |k*|.
-better (legacy, nearly identical to -polish without k*)
Score each variant, or variants within distance k and their combinations without k*.
Assumes the reference (-sequence) is partially from the same individual.
Include variants only when the num. missing (error) k-mers decrease.
Neutral alternative paths that score equally to the reference path are excluded.
If multiple candidate paths tie, the longest path is chosen.
Required: -sequence, -readmers, -peak, -vcf, and -output
Optional: -comb <N> set the max N of combinations of variants to be evaluated (default: 15)
-nosplit without this options combinations larger than N are split
-prob <file> use probabilities to adjust multiplicity to copy number (recommended)
-debug output a debug log, into <output>.THREAD_ID.debug.gz
Output: <output>.polish.vcf : variants chosen.
use bcftools view -Oz <output>.polish.vcf and bcftools consensus -H 1 -f <seq.fata> to polish.
first ALT in heterozygous alleles are usually better supported by avg. |k*|.
-hist
Generate a 0-centered k* histogram for sequences in <input.fasta>.
Positive k* values are expected collapsed copies.
Negative k* values are expected expanded copies.
Closer to 0 means the expected and found k-mers are well balenced, 1:1.
Required: -sequence, -readmers, -peak, and -output.
Optional: -prob <file> use probabilities to adjust multiplicity to copy number (recommended)
Output: k* <tab> frequency
Reports QV at the end, in stderr.
-dump
Dump readK, asmK, and k* per bases (k-mers) in <input.fasta>.
Required: -sequence, -readmers, -peak, and -output
Optional: -skipMissing skip the missing kmer sites to be printed
-prob <file> use probabilities to adjust multiplicity to copy number (recommended)
Output: seqName <tab> seqPos <tab> readK <tab> asmK <tab> k*
seqName - name of the sequence this kmer is from
seqPos - start position (0-based) of the kmer in the sequence
readK - normalized read copies (read multiplicity / peak)
asmK - assembly copies as found in <seq.meryl>
k* - 0-centered k* value
-completeness
Compute kmer completeness using expected copy numbers for all kmers.
Required: -seqmers (or -sequence), -readmers, -peak
Optional: -prob <file> use probabilities to adjust multiplicity to copy number (recommended)
Output: total kmers in reads, number of kmers under the expected copy number, and completeness
Optional output from -debug in -filter and -polish:
<output>.THREAD_ID.debug.gz : some useful info for debugging.
seqName <tab> varMerStart <tab> varMerEnd <tab> varMerSeq <tab> score <tab> path
varMerID - unique numbering, starting from 0
varMerRange - seqName:start-end. position (0-based) of the variant (s),
including sequences upstream and downstream of k-1 bp
varMerSeq - combination of variant sequence to evalute
numMissings - total number of missing kmers
min k* - minimum of all |k*| for non-missing kmers. -1 when all kmers are missing.
max k* - maximum of all |k*| for non-missing kmers. -1 when all kmers are missing.
median k* - median of all |k*| for non-missing kmers. -1 when all kmers are missing.
avg k* - average of all |k*| for non-missing kmers. -1 when all kmers are missing.
avg ref-alt k* - difference between reference and alternate average k*.
delta kmer multiplicity - cumulative sum of kmer multiplicity variation.
positive values imply recovered kmers, while
negative values imply overrepresented kmers introduced.
record - vcf record with <tab> replaced to <space>.
only non-reference alleles are printed with GT being 1/1.
Acknowledgements
This code was developed as part of the T2T consortium chm13-polishing working group by the following individuals:
- Giulio Formenti
- Arang Rhie
- Brian Walenz
- Sergey Koren
- Adam Phillippy
With special thanks for their support to integrate --fitted_hist
option in GenomeScope 2.0:
- Rhyker Ranallo-Benavidez
- Michael Schatz
Citation
-
Formenti, G., Rhie, A., Walenz, B.P. et al. Merfin: improved variant filtering, assembly evaluation and polishing via k-mer validation. Nat Methods (2022). https://doi.org/10.1038/s41592-022-01445-y
-
-better
-loose
-strict
mode: Rhie A, Nurk S, Cechova M, Hoyt S, Taylor DJ et al., The complete sequence of a human Y chromosome. bioRxiv (2022) https://doi.org/10.1101/2022.12.01.518724