Bactopia Tool - merlin
¶
MinmER assisted species-specific bactopia tool seLectIoN, or Merlin, uses distances based
on the RefSeq sketch downloaded by bactopia datasets
to automatically run species-specific tools.
Currently Merlin knows 16 spells for which cover the following:
Genus/Species | Tools |
---|---|
Escherichia / Shigella | ECTyper, ShigaTyper, ShigEiFinder |
Haemophilus | hicap, HpsuisSero |
Klebsiella | Kleborate |
Legionella | legsta |
Listeria | LisSero |
Mycobacterium | TBProfiler |
Neisseria | meningotype, ngmaster |
Pseudomonas | pasty |
Salmonella | SeqSero2, SISTR |
Staphylococcus | AgrVATE, spaTyper, staphopia-sccmec |
Streptococcus | emmtyper, pbptyper, SsuisSero |
Merlin is avialable as an independent Bactopia Tool, or in the Bactopia with the --ask_merlin
parameter. Even better,
if you want to force Merlin to execute all species-specific tools (no matter the distance), you can use --full_merlin
.
Then all the spells will be unleashed!
Example Usage¶
bactopia --wf merlin \
--bactopia /path/to/your/bactopia/results \
--include includes.txt
Output Overview¶
Below is the default output structure for the merlin
tool. Where possible the
file descriptions below were modified from a tools description.
merlin/
├── <SAMPLE_NAME>
│ ├── agrvate
│ │ ├── <SAMPLE_NAME>-agr_gp.tab
│ │ ├── <SAMPLE_NAME>-blastn_log.txt
│ │ └── <SAMPLE_NAME>-summary.tab
│ ├── ectyper
│ │ ├── <SAMPLE_NAME>.tsv
│ │ └── blast_output_alleles.txt
│ ├── emmtyper
│ │ └── <SAMPLE_NAME>.tsv
│ ├── hicap
│ │ └── <SAMPLE_NAME>.tsv
│ ├── hpsuissero
│ │ └── <SAMPLE_NAME>_serotyping_res.tsv
│ ├── kleborate
│ │ └── <SAMPLE_NAME>.results.txt
│ ├── legsta
│ │ └── <SAMPLE_NAME>.tsv
│ ├── lissero
│ │ └── <SAMPLE_NAME>.tsv
│ ├── logs
│ │ └── <BACTOPIA_TOOL>
│ │ ├── nf-<BACTOPIA_TOOL>.{begin,err,log,out,run,sh,trace}
│ │ └── versions.yml
│ ├── mashdist
│ │ └── <SAMPLE_NAME>-dist.txt
│ ├── meningotype
│ │ └── <SAMPLE_NAME>.tsv
│ ├── ngmaster
│ │ └── <SAMPLE_NAME>.tsv
│ ├── seqsero2
│ │ ├── <SAMPLE_NAME>_log.txt
│ │ ├── <SAMPLE_NAME>_result.tsv
│ │ └── <SAMPLE_NAME>_result.txt
│ ├── sistr
│ │ ├── <SAMPLE_NAME>-allele.fasta.gz
│ │ ├── <SAMPLE_NAME>-allele.json.gz
│ │ ├── <SAMPLE_NAME>-cgmlst.csv
│ │ └── <SAMPLE_NAME>.tsv
│ ├── spatyper
│ │ └── <SAMPLE_NAME>.tsv
│ ├── ssuissero
│ │ └── <SAMPLE_NAME>_serotyping_res.tsv
│ ├── staphopiasccmec
│ │ └── <SAMPLE_NAME>.tsv
│ └── tbprofiler
│ ├── <SAMPLE_NAME>.results.csv
│ ├── <SAMPLE_NAME>.results.json
│ ├── <SAMPLE_NAME>.results.txt
│ ├── bam
│ │ └── <SAMPLE_NAME>.bam
│ └── vcf
│ └── <SAMPLE_NAME>.targets.csq.vcf.gz
├── logs
│ ├── csvtk_concat
│ │ └── <BACTOPIA_TOOL>
│ │ ├── nf-csvtk_concat.{begin,err,log,out,run,sh,trace}
│ │ └── versions.yml
│ └── custom_dumpsoftwareversions
│ ├── nf-custom_dumpsoftwareversions.{begin,err,log,out,run,sh,trace}
│ └── versions.yml
├── nf-reports
│ ├── merlin-dag.dot
│ ├── merlin-report.html
│ ├── merlin-timeline.html
│ └── merlin-trace.txt
├── agrvate.tsv
├── ectyper.tsv
├── emmtyper.tsv
├── hicap.tsv
├── hpsuissero.tsv
├── kleborate.tsv
├── legsta.tsv
├── lissero.tsv
├── meningotype.tsv
├── ngmaster.tsv
├── seqsero2.tsv
├── sistr.tsv
├── software_versions.yml
├── software_versions_mqc.yml
├── spatyper.tsv
├── ssuissero.tsv
└── staphopiasccmec.tsv
Directory structure might be different
merlin
is available as a standalone Bactopia Tool, as well as from
the main Bactopia workflow (e.g. through Staphopia or Merlin). If executed
from Bactopia, the merlin
directory structure might be different, but the
output descriptions below still apply.
Results¶
Top Level¶
Below are results that are in the base directory.
Filename | Description |
---|---|
agrvate.tsv | A merged TSV file with AgrVATE results from all samples |
ectyper.tsv | A merged TSV file with ECTyper results from all samples |
emmtyper.tsv | A merged TSV file with emmtyper results from all samples |
hicap.tsv | A merged TSV file with hicap results from all samples |
hpsuissero.tsv | A merged TSV file with HpsuisSero results from all samples |
kleborate.tsv | A merged TSV file with Kleborate results from all samples |
legsta.tsv | A merged TSV file with legsta results from all samples |
lissero.tsv | A merged TSV file with LisSero results from all samples |
meningotype.tsv | A merged TSV file with meningotype results from all samples |
ngmaster.tsv | A merged TSV file with ngmaster results from all samples |
seqsero2.tsv | A merged TSV file with seqsero2 results from all samples |
sistr.tsv | A merged TSV file with SISTR results from all samples |
spatyper.tsv | A merged TSV file with spaTyper results from all samples |
ssuissero.tsv | A merged TSV file with SsuisSero results from all samples |
staphopiasccmec.tsv | A merged TSV file with staphopia-sccmec results from all samples |
AgrVATE¶
Below is a description of the per-sample results from AgrVATE.
Extension | Description |
---|---|
-agr_gp.tab | Detailed report for agr kmer matches |
-blastn_log.txt | Log files from programs called by AgrVATE |
-summary.tab | A final summary report for agr typing |
ECTyper¶
Below is a description of the per-sample results from ECTyper.
Filename | Description |
---|---|
<SAMPLE_NAME>.tsv | A tab-delimited file with ECTyper result, see ECTyper - Report format for details |
blast_output_alleles.txt | Allele report generated from BLAST results |
emmtyper¶
Below is a description of the per-sample results from emmtyper.
Filename | Description |
---|---|
<SAMPLE_NAME>.tsv | A tab-delimited file with emmtyper result, see emmtyper - Result format for details |
hicap¶
Below is a description of the per-sample results from hicap.
Filename | Description |
---|---|
<SAMPLE_NAME>.gbk | GenBank file and cap locus annotations |
<SAMPLE_NAME>.svg | Visualization of annotated cap locus |
<SAMPLE_NAME>.tsv | A tab-delimited file with hicap results |
HpsuisSero¶
Below is a description of the per-sample results from HpsuisSero.
Filename | Description |
---|---|
<SAMPLE_NAME>_serotyping_res.tsv | A tab-delimited file with HpsuisSero result |
Kleborate¶
Below is a description of the per-sample results from Kleborate.
Filename | Description |
---|---|
<SAMPLE_NAME>.results.tsv | A tab-delimited file with Kleborate result, see Kleborate - Example output for more details |
legsta¶
Below is a description of the per-sample results from legsta.
Filename | Description |
---|---|
<SAMPLE_NAME>.tsv | A tab-delimited file with legsta result, see legsta - Output for more details |
LisSero¶
Below is a description of the per-sample results from LisSero.
Filename | Description |
---|---|
<SAMPLE_NAME>.tsv | A tab-delimited file with LisSero results |
Mash¶
Below is a description of the per-sample results from Mash.
Filename | Description |
---|---|
<SAMPLE_NAME>-dist.txt | A tab-delimited file with mash dist results |
meningotype¶
Below is a description of the per-sample results from meningotype .
Filename | Description |
---|---|
<SAMPLE_NAME>.tsv | A tab-delimited file with meningotype result |
ngmaster¶
Below is a description of the per-sample results from ngmaster.
Filename | Description |
---|---|
<SAMPLE_NAME>.tsv | A tab-delimited file with ngmaster results |
SeqSero2¶
Below is a description of the per-sample results from SeqSero2.
Filename | Description |
---|---|
<SAMPLE_NAME>.tsv | A tab-delimited file with SeqSero2 results |
<SAMPLE_NAME>.txt | A text file with key-value pairs of SeqSero2 results |
SISTR¶
Below is a description of the per-sample results from SISTR.
Filename | Description |
---|---|
<SAMPLE_NAME>-allele.fasta.gz | A FASTA file of the cgMLST allele search results |
<SAMPLE_NAME>-allele.json.gz | JSON formated cgMLST allele search results, see SISTR - cgMLST search results for more details |
<SAMPLE_NAME>-cgmlst.csv | A comma-delimited summary of the cgMLST allele search results |
<SAMPLE_NAME>.tsv | A tab-delimited file with SISTR results, see SISTR - Primary results for more details |
spaTyper¶
Below is a description of the per-sample results from spaTyper.
Filename | Description |
---|---|
<SAMPLE_NAME>.tsv | A tab-delimited file with spaTyper results |
SsuisSero¶
Below is a description of the per-sample results from SsuisSero.
Filename | Description |
---|---|
<SAMPLE_NAME>_serotyping_res.tsv | A tab-delimited file with SsuisSero results |
staphopia-sccmec¶
Below is a description of the per-sample results from staphopia-sccmec.
Filename | Description |
---|---|
<SAMPLE_NAME>.tsv | A tab-delimited file with staphopia-sccmec results |
TBProfiler¶
Below is a description of the per-sample results from TBProfiler.
Filename | Description |
---|---|
<SAMPLE_NAME>.results.csv | A CSV formated TBProfiler result file of resistance and strain type |
<SAMPLE_NAME>.results.json | A JSON formated TBProfiler result file of resistance and strain type |
<SAMPLE_NAME>.results.txt | A text file with TBProfiler results |
<SAMPLE_NAME>.bam | BAM file with alignment details |
<SAMPLE_NAME>.targets.csq.vcf.gz | VCF with variant info again refernce genomes |
Audit Trail¶
Below are files that can assist you in understanding which parameters and program versions were used.
Logs¶
Each process that is executed will have a logs
folder containing helpful files for you to review
if the need ever arises.
Filename | Description |
---|---|
nf-<PROCESS_NAME>.begin | An empty file used to designate the process started |
nf-<PROCESS_NAME>.err | Contains STDERR outputs from the process |
nf-<PROCESS_NAME>.log | Contains both STDERR and STDOUT outputs from the process |
nf-<PROCESS_NAME>.out | Contains STDOUT outputs from the process |
nf-<PROCESS_NAME>.run | The script Nextflow uses to stage/unstage files and queue processes based on given profile |
nf-<PROCESS_NAME>.sh | The script executed by bash for the process |
nf-<PROCESS_NAME>.trace | The Nextflow Trace report for the process |
versions.yml | A YAML formatted file with program versions |
Nextflow Reports¶
These Nextflow reports provide great a great summary of your run. These can be used to optimize resource usage and estimate expected costs if using cloud platforms.
Filename | Description |
---|---|
merlin-dag.dot | The Nextflow DAG visualisation |
merlin-report.html | The Nextflow Execution Report |
merlin-timeline.html | The Nextflow Timeline Report |
merlin-trace.txt | The Nextflow Trace report |
Program Versions¶
At the end of each run, each of the versions.yml
files are merged into the files below.
Filename | Description |
---|---|
software_versions.yml | A complete list of programs and versions used by each process |
software_versions_mqc.yml | A complete list of programs and versions formatted for MultiQC |
Parameters¶
Required Parameters¶
Define where the pipeline should find input data and save output data.
Parameter | Description | Default |
---|---|---|
--bactopia |
The path to bactopia results to use as inputs |
Filtering Parameters¶
Use these parameters to specify which samples to include or exclude.
Parameter | Description | Default |
---|---|---|
--include |
A text file containing sample names (one per line) to include from the analysis | |
--exclude |
A text file containing sample names (one per line) to exclude from the analysis |
mashdist Parameters¶
Parameter | Description | Default |
---|---|---|
--mash_sketch |
The reference sequence as a Mash Sketch (.msh file) | |
--mash_seed |
Seed to provide to the hash function | 42 |
--mash_table |
Table output (fields will be blank if they do not meet the p-value threshold) | False |
--mash_m |
Minimum copies of each k-mer required to pass noise filter for reads | 1 |
--mash_w |
Probability threshold for warning about low k-mer size. | 0.01 |
--max_p |
Maximum p-value to report. | 1.0 |
--max_dist |
Maximum distance to report. | 1.0 |
--merlin_dist |
Maximum distance to report when using Merlin . | 0.1 |
--full_merlin |
Go full Merlin and run all species-specific tools, no matter the Mash distance | False |
--use_fastqs |
Query with FASTQs instead of the assemblies | False |
AgrVATE Parameters¶
Parameter | Description | Default |
---|---|---|
--typing_only |
agr typing only. Skips agr operon extraction and frameshift detection | False |
ECTyper Parameters¶
Parameter | Description | Default |
---|---|---|
--opid |
Percent identity required for an O antigen allele match | 90 |
--opcov |
Minumum percent coverage required for an O antigen allele match | 90 |
--hpid |
Percent identity required for an H antigen allele match | 95 |
--hpcov |
Minumum percent coverage required for an H antigen allele match | 50 |
--verify |
Enable E. coli species verification | False |
--print_alleles |
Prints the allele sequences if enabled as the final column | False |
emmtyper Parameters¶
Parameter | Description | Default |
---|---|---|
--emmtyper_wf |
Workflow for emmtyper to use. | blast |
--cluster_distance |
Distance between cluster of matches to consider as different clusters | 500 |
--percid |
Minimal percent identity of sequence | 95 |
--culling_limit |
Total hits to return in a position | 5 |
--mismatch |
Threshold for number of mismatch to allow in BLAST hit | 5 |
--align_diff |
Threshold for difference between alignment length and subject length in BLAST | 5 |
--gap |
Threshold gap to allow in BLAST hit | 2 |
--min_perfect |
Minimum size of perfect match at 3 primer end | 15 |
--min_good |
Minimum size where there must be 2 matches for each mismatch | 15 |
--max_size |
Maximum size of PCR product | 2000 |
hicap Parameters¶
Parameter | Description | Default |
---|---|---|
--database_dir |
Directory containing locus database | |
--model_fp |
Path to prodigal model | |
--full_sequence |
Write the full input sequence out to the genbank file rather than just the region surrounding and including the locus | False |
--hicap_debug |
hicap will print debug messages | False |
--gene_coverage |
Minimum percentage coverage to consider a single gene complete | 0.8 |
--gene_identity |
Minimum percentage identity to consider a single gene complete | 0.7 |
--broken_gene_length |
Minimum length to consider a broken gene | 60 |
--broken_gene_identity |
Minimum percentage identity to consider a broken gene | 0.8 |
HpsuisSero Parameters¶
Parameter | Description | Default |
---|---|---|
GenoTyphi Parameters¶
Parameter | Description | Default |
---|---|---|
--kmer |
K-mer length | 21 |
--min_depth |
Minimum depth | 1 |
--model |
Genotype model used. | kmer_count |
--report_all_calls |
Report all calls | False |
--mykrobe_opts |
Extra Mykrobe options in quotes |
Kleborate Parameters¶
Parameter | Description | Default |
---|---|---|
--skip_resistance |
Turn off resistance genes screening | False |
--skip_kaptive |
Turn off Kaptive screening of K and O loci | False |
--min_identity |
Minimum alignment percent identity for main results | 90.0 |
--kleborate_min_coverage |
Minimum alignment percent coverage for main results | 80.0 |
--min_spurious_identity |
Minimum alignment percent identity for spurious results | 80.0 |
--min_spurious_coverage |
Minimum alignment percent coverage for spurious results | 40.0 |
--min_kaptive_confidence |
Minimum Kaptive confidence to call K/O loci - confidence levels below this will be reported as unknown | Good |
--force_index |
Rebuild the BLAST index at the start of execution | False |
legsta Parameters¶
Parameter | Description | Default |
---|---|---|
--noheader |
Don't print header row | False |
LisSero Parameters¶
Parameter | Description | Default |
---|---|---|
--min_id |
Minimum percent identity to accept a match | 95.0 |
--min_cov |
Minimum coverage of the gene to accept a match | 95.0 |
meningotype Parameters¶
You can use these parameters to fine-tune your meningotype analysis
Parameter | Description | Default |
---|---|---|
--finetype |
perform porA and fetA fine typing | False |
--porB |
perform porB sequence typing (NEIS2020) | False |
--bast |
perform Bexsero antigen sequence typing (BAST) | False |
--mlst |
perform MLST | False |
--all |
perform MLST, porA, fetA, porB, BAST typing | False |
ngmaster Parameters¶
Parameter | Description | Default |
---|---|---|
--csv |
output comma-separated format (CSV) rather than tab-separated | False |
pasty Parameters¶
Parameter | Description | Default |
---|---|---|
--pasty_min_pident |
Minimum percent identity to count a hit | 95 |
--pasty_min_coverage |
Minimum percent coverage to count a hit | 95 |
pbptyper Parameters¶
Parameter | Description | Default |
---|---|---|
--pbptyper_min_pident |
Minimum percent identity to count a hit | 95 |
--pbptyper_min_coverage |
Minimum percent coverage to count a hit | 95 |
--pbptyper_min_ani |
Minimum S. pneumoniae ANI to predict PBP Type | 95 |
SeqSero2 Parameters¶
Parameter | Description | Default |
---|---|---|
--run_mode |
Workflow to run. 'a' allele mode, or 'k' k-mer mode | k |
--input_type |
Input format to analyze. 'assembly' or 'fastq' | assembly |
--bwa_mode |
Algorithms for bwa mapping for allele mode | mem |
ShigaTyper Parameters¶
Parameter | Description | Default |
---|---|---|
ShigEiFinder Parameters¶
Parameter | Description | Default |
---|---|---|
SISTR Parameters¶
Parameter | Description | Default |
---|---|---|
--full_cgmlst |
Use the full set of cgMLST alleles which can include highly similar alleles | False |
spaTyper Parameters¶
Parameter | Description | Default |
---|---|---|
--repeats |
List of spa repeats | |
--repeat_order |
List spa types and order of repeats | |
--do_enrich |
Do PCR product enrichment | False |
staphopia-sccmec Parameters¶
Parameter | Description | Default |
---|---|---|
--hamming |
Report the results as hamming distances | False |
SsuisSero Parameters¶
Parameter | Description | Default |
---|---|---|
TBProfiler Parameters¶
Parameter | Description | Default |
---|---|---|
--call_whole_genome |
Call whole genome | False |
--mapper |
Mapping tool to use. If you are using nanopore data it will default to minimap2 | bwa |
--caller |
Variant calling tool to use | freebayes |
--calling_params |
Extra variant caller options in quotes | |
--tb_min_depth |
Minimum depth required to call variant | 10 |
--tb_af |
Minimum allele frequency to call variants | 0.1 |
--tb_reporting_af |
Minimum allele frequency to use variants for prediction | 0.1 |
--coverage_fraction_threshold |
Cutoff used to calculate fraction of region covered by <= this value | 0 |
--suspect |
Use the suspect suite of tools to add ML predictions | False |
--no_flagstat |
Don't collect flagstats | False |
--no_delly |
Don't run delly | False |
Optional Parameters¶
These optional parameters can be useful in certain settings.
Parameter | Description | Default |
---|---|---|
--outdir |
Base directory to write results to | ./ |
--run_name |
Name of the directory to hold results | bactopia |
--skip_compression |
Ouput files will not be compressed | False |
--keep_all_files |
Keeps all analysis files created | False |
Max Job Request Parameters¶
Set the top limit for requested resources for any single job.
Parameter | Description | Default |
---|---|---|
--max_retry |
Maximum times to retry a process before allowing it to fail. | 3 |
--max_cpus |
Maximum number of CPUs that can be requested for any single job. | 4 |
--max_memory |
Maximum amount of memory (in GB) that can be requested for any single job. | 32 |
--max_time |
Maximum amount of time (in minutes) that can be requested for any single job. | 120 |
--max_downloads |
Maximum number of samples to download at a time | 3 |
Nextflow Configuration Parameters¶
Parameters to fine-tune your Nextflow setup.
Parameter | Description | Default |
---|---|---|
--nfconfig |
A Nextflow compatible config file for custom profiles, loaded last and will overwrite existing variables if set. | |
--publish_dir_mode |
Method used to save pipeline results to output directory. | copy |
--infodir |
Directory to keep pipeline Nextflow logs and reports. | ${params.outdir}/pipeline_info |
--force |
Nextflow will overwrite existing output files. | False |
--cleanup_workdir |
After Bactopia is successfully executed, the work directory will be deleted. |
False |
Nextflow Profile Parameters¶
Parameters to fine-tune your Nextflow setup.
Parameter | Description | Default |
---|---|---|
--condadir |
Directory to Nextflow should use for Conda environments | |
--registry |
Docker registry to pull containers from. | dockerhub |
--singularity_cache |
Directory where remote Singularity images are stored. | |
--singularity_pull_docker_container |
Instead of directly downloading Singularity images for use with Singularity, force the workflow to pull and convert Docker containers instead. | |
--force_rebuild |
Force overwrite of existing pre-built environments. | False |
--queue |
Comma-separated name of the queue(s) to be used by a job scheduler (e.g. AWS Batch or SLURM) | general,high-memory |
--cluster_opts |
Additional options to pass to the executor. (e.g. SLURM: '--account=my_acct_name' | |
--disable_scratch |
All intermediate files created on worker nodes of will be transferred to the head node. | False |
Helpful Parameters¶
Uncommonly used parameters that might be useful.
Parameter | Description | Default |
---|---|---|
--monochrome_logs |
Do not use coloured log outputs. | |
--nfdir |
Print directory Nextflow has pulled Bactopia to | |
--sleep_time |
The amount of time (seconds) Nextflow will wait after setting up datasets before execution. | 5 |
--validate_params |
Boolean whether to validate parameters against the schema at runtime | True |
--help |
Display help text. | |
--wf |
Specify which workflow or Bactopia Tool to execute | bactopia |
--list_wfs |
List the available workflows and Bactopia Tools to use with '--wf' | |
--show_hidden_params |
Show all params when using --help |
|
--help_all |
An alias for --help --show_hidden_params | |
--version |
Display version text. |
Citations¶
If you use Bactopia and merlin
in your analysis, please cite the following.
-
Bactopia
Petit III RA, Read TD Bactopia - a flexible pipeline for complete analysis of bacterial genomes. mSystems 5 (2020) -
AgrVATE
Raghuram V. AgrVATE: Rapid identification of Staphylococcus aureus agr locus type and agr operon variants. (GitHub) -
csvtk
Shen, W csvtk: A cross-platform, efficient and practical CSV/TSV toolkit in Golang. (GitHub) -
ECTyper
Laing C, Bessonov K, Sung S, La Rose C ECTyper - In silico prediction of Escherichia coli serotype (GitHub) -
emmtyper
Tan A, Seemann T, Lacey D, Davies M, Mcintyre L, Frost H, Williamson D, Gonçalves da Silva A emmtyper - emm Automatic Isolate Labeller (GitHub) -
GenoTyphi
Wong VK, Baker S, Connor TR, Pickard D, Page AJ, Dave J, Murphy N, Holliman R, Sefton A, Millar M, Dyson ZA, Dougan G, Holt KE, & International Typhoid Consortium. An extended genotyping framework for Salmonella enterica serovar Typhi, the cause of human typhoid Nature Communications 7, 12827. (2016) -
hicap
Watts SC, Holt KE hicap: in silico serotyping of the Haemophilus influenzae capsule locus. Journal of Clinical Microbiology JCM.00190-19 (2019) -
HpsuisSero
Lui J HpsuisSero: Rapid Haemophilus parasuis serotyping (GitHub) -
Kleborate
Lam MMC, Wick RR, Watts, SC, Cerdeira LT, Wyres KL, Holt KE A genomic surveillance framework and genotyping tool for Klebsiella pneumoniae and its related species complex. Nat Commun 12, 4188 (2021) -
legsta
Seemann T legsta: In silico Legionella pneumophila Sequence Based Typing (GitHub) -
LisSero
Kwong J, Zhang J, Seeman T, Horan, K, Gonçalves da Silva A LisSero - In silico serotype prediction for Listeria monocytogenes (GitHub) -
Mash
Ondov BD, Treangen TJ, Melsted P, Mallonee AB, Bergman NH, Koren S, Phillippy AM Mash: fast genome and metagenome distance estimation using MinHash. Genome Biol 17, 132 (2016) -
meningotype
Kwong JC, Gonçalves da Silva A, Stinear TP, Howden BP, & Seemann T meningotype: in silico typing for Neisseria meningitidis. (GitHub) -
Mykrobe
Hunt M, Bradley P, Lapierre SG, Heys S, Thomsit M, Hall MB, Malone KM, Wintringer P, Walker TM, Cirillo DM, Comas I, Farhat MR, Fowler P, Gardy J, Ismail N, Kohl TA, Mathys V, Merker M, Niemann S, Omar SV, Sintchenko V, Smith G, Supply P, Tahseen S, Wilcox M, Arandjelovic I, Peto TEA, Crook, DW, Iqbal Z Antibiotic resistance prediction for Mycobacterium tuberculosis from genome sequence data with Mykrobe Wellcome Open Research 4, 191. (2019) -
ngmaster
Kwong J, Gonçalves da Silva A, Schultz M, Seeman T ngmaster - In silico multi-antigen sequence typing for Neisseria gonorrhoeae (NG-MAST) (GitHub) -
pasty
Petit III RA pasty: in silico serogrouping of Pseudomonas aeruginosa isolates (GitHub) -
pbptyper
Petit III RA pbptyper: In silico Penicillin Binding Protein (PBP) typer for Streptococcus pneumoniae assemblies (GitHub) -
SeqSero2
Zhang S, Den-Bakker HC, Li S, Dinsmore BA, Lane C, Lauer AC, Fields PI, Deng X. SeqSero2: rapid and improved Salmonella serotype determination using whole genome sequencing data. Appl Environ Microbiology 85(23):e01746-19 (2019) -
ShigaTyper
Wu Y, Lau HK, Lee T, Lau DK, Payne J In Silico Serotyping Based on Whole-Genome Sequencing Improves the Accuracy of Shigella Identification. Applied and Environmental Microbiology, 85(7). (2019) -
ShigEiFinder
Zhang X, Payne M, Nguyen T, Kaur S, Lan R Cluster-specific gene markers enhance Shigella and enteroinvasive Escherichia coli in silico serotyping. Microbial Genomics, 7(12). (2021) -
SISTR
Yoshida CE, Kruczkiewicz P, Laing CR, Lingohr EJ, Gannon VPJ, Nash JHE, Taboada EN The Salmonella In Silico Typing Resource (SISTR): An Open Web-Accessible Tool for Rapidly Typing and Subtyping Draft Salmonella Genome Assemblies. PloS One, 11(1), e0147101. (2016) -
spaTyper
Sanchez-Herrero JF, and Sullivan M spaTyper: Staphylococcal protein A (spa) characterization pipeline. Zenodo. (2020) -
SsuisSero
Lui J SsuisSero: Rapid Streptococcus suis serotyping (GitHub) -
staphopia-sccmec
Petit III RA, Read TD Staphylococcus aureus viewed from the perspective of 40,000+ genomes. PeerJ 6, e5261 (2018) -
TBProfiler
Phelan JE, O’Sullivan DM, Machado D, Ramos J, Oppong YEA, Campino S, O’Grady J, McNerney R, Hibberd ML, Viveiros M, Huggett JF, Clark TG Integrating informatics tools and portable sequencing technology for rapid detection of resistance to anti-tuberculous drugs. Genome Med 11, 41 (2019)