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https://github.com/althonos/pyhmmer

Cython bindings and Python interface to HMMER3.
https://github.com/althonos/pyhmmer

bioinformatics cython-library hidden-markov-model hmmer hmmer3 python-bindings python-library sequence-analysis

Last synced: about 1 month ago
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Cython bindings and Python interface to HMMER3.

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# πŸπŸŸ‘β™¦οΈπŸŸ¦ PyHMMER [![Stars](https://img.shields.io/github/stars/althonos/pyhmmer.svg?style=social&maxAge=3600&label=Star)](https://github.com/althonos/pyhmmer/stargazers)



*[Cython](https://cython.org/) bindings and Python interface to [HMMER3](http://hmmer.org/).*



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## πŸ—ΊοΈ Overview



HMMER is a biological sequence analysis tool that uses profile hidden Markov

models to search for sequence homologs. HMMER3 is developed and maintained by

the [Eddy/Rivas Laboratory](http://eddylab.org/) at Harvard University.



`pyhmmer` is a Python package, implemented using the [Cython](https://cython.org/)

language, that provides bindings to HMMER3. It directly interacts with the

HMMER internals, which has the following advantages over CLI wrappers

(like [`hmmer-py`](https://pypi.org/project/hmmer/)):



- **single dependency**: If your software or your analysis pipeline is

  distributed as a Python package, you can add `pyhmmer` as a dependency to

  your project, and stop worrying about the HMMER binaries being properly

  setup on the end-user machine.

- **no intermediate files**: Everything happens in memory, in Python objects

  you have control on, making it easier to pass your inputs to HMMER without

  needing to write them to a temporary file. Output retrieval is also done

  in memory, via instances of the

  [`pyhmmer.plan7.TopHits`](https://pyhmmer.readthedocs.io/en/stable/api/plan7.html#pyhmmer.plan7.TopHits)

  class.

- **no input formatting**: The Easel object model is exposed in the

  [`pyhmmer.easel`](https://pyhmmer.readthedocs.io/en/stable/api/easel.html)

  module, and you have the possibility to build a

  [`DigitalSequence`](https://pyhmmer.readthedocs.io/en/stable/api/easel.html#pyhmmer.easel.DigitalSequence)

  object yourself to pass to the HMMER pipeline. This is useful if your sequences are already

  loaded in memory, for instance because you obtained them from another

  Python library (such as [Pyrodigal](https://github.com/althonos/pyrodigal)

  or [Biopython](https://biopython.org/)).

- **no output parsing**: HMMER3 is notorious for its numerous output files

  and its fixed-width tabular output, which is hard to parse (even

  [`Bio.SearchIO.HmmerIO`](https://biopython.org/docs/dev/api/Bio.SearchIO.HmmerIO.html)

  is struggling on some sequences).

- **efficient**: Using `pyhmmer` to launch `hmmsearch` on sequences

  and HMMs in disk storage is typically as fast as directly using the

  `hmmsearch` binary (see the [Benchmarks section](#%EF%B8%8F-benchmarks)).

  [`pyhmmer.hmmer.hmmsearch`](https://pyhmmer.readthedocs.io/en/stable/api/hmmer.html#hmmsearch)

  uses a different parallelisation strategy compared to

  the `hmmsearch` binary from HMMER, which can help getting the most of

  multiple CPUs when annotating smaller sequence databases.



*This library is still a work-in-progress. It follows [semantic-versioning](https://semver.org/),

so API changes will be documented, but past `v0.10` the API has been more or

less stable. It should already pack enough features to run biological analyses 

or workflows involving `hmmsearch`, `hmmscan`, `nhmmer`, `phmmer`, `hmmbuild`

and `hmmalign`.*



## πŸ”§ Installing



`pyhmmer` can be installed from [PyPI](https://pypi.org/project/pyhmmer/),

which hosts some pre-built CPython wheels for Linux and MacOS on x86-64 and Arm64, as well as the code required to compile from source with Cython:

```console

$ pip install pyhmmer

```



Compilation for UNIX PowerPC is not tested in CI, but should work out of the

box. Note than non-UNIX operating systems (such as Windows) are not

supported by HMMER.



A [Bioconda](https://bioconda.github.io/) package is also available:

```console

$ conda install -c bioconda pyhmmer

```



## πŸ”– Citation



PyHMMER is scientific software, with a

[published paper](https://doi.org/10.1093/bioinformatics/btad214)

in the [Bioinformatics](https://academic.oup.com/bioinformatics). Please

cite both [PyHMMER](https://doi.org/10.21105/joss.04296)

and [HMMER](http://hmmer.org) if you are using it in

an academic work, for instance as:



> PyHMMER (Larralde *et al.*, 2023), a Python library binding to HMMER (Eddy, 2011).



Detailed references are available on the [Publications page](https://pyhmmer.readthedocs.io/en/stable/publications.html) of the

[online documentation](https://pyhmmer.readthedocs.io/).



## πŸ“– Documentation



A complete [API reference](https://pyhmmer.readthedocs.io/en/stable/api/) can

be found in the [online documentation](https://pyhmmer.readthedocs.io/), or

directly from the command line using

[`pydoc`](https://docs.python.org/3/library/pydoc.html):

```console

$ pydoc pyhmmer.easel

$ pydoc pyhmmer.plan7

```



## πŸ’‘ Example



Use `pyhmmer` to run `hmmsearch` to search for Type 2 PKS domains

([`t2pks.hmm`](https://raw.githubusercontent.com/althonos/pyhmmer/master/pyhmmer/tests/data/hmms/txt/t2pks.hmm))

inside proteins extracted from the genome of *Anaerococcus provencensis*

([`938293.PRJEB85.HG003687.faa`](https://raw.githubusercontent.com/althonos/pyhmmer/master/pyhmmer/tests/data/seqs/938293.PRJEB85.HG003687.faa)).

This will produce an iterable over

[`TopHits`] that can be used for further sorting/querying in Python.

Processing happens in parallel using Python threads, and a [`TopHits`]

object is yielded for every [`HMM`] passed in the input iterable.



[`HMM`]: https://pyhmmer.readthedocs.io/en/stable/api/plan7.html#pyhmmer.plan7.HMM

[`TopHits`]: https://pyhmmer.readthedocs.io/en/stable/api/plan7.html#pyhmmer.plan7.TopHits



```python

import pyhmmer



with pyhmmer.easel.SequenceFile("pyhmmer/tests/data/seqs/938293.PRJEB85.HG003687.faa", digital=True) as seq_file:

    sequences = list(seq_file)



with pyhmmer.plan7.HMMFile("pyhmmer/tests/data/hmms/txt/t2pks.hmm") as hmm_file:

    for hits in pyhmmer.hmmsearch(hmm_file, sequences, cpus=4):

      print(f"HMM {hits.query.name.decode()} found {len(hits)} hits in the target sequences")

```



Have a look at more in-depth examples such as [building a HMM from an alignment](https://pyhmmer.readthedocs.io/en/stable/examples/msa_to_hmm.html),

[analysing the active site of a hit](https://pyhmmer.readthedocs.io/en/stable/examples/active_site.html),

or [fetching marker genes from a genome](https://pyhmmer.readthedocs.io/en/stable/examples/fetchmgs.html)

in the [Examples](https://pyhmmer.readthedocs.io/en/stable/examples/index.html)

page of the [online documentation](https://pyhmmer.readthedocs.io/).



## πŸ’­ Feedback



### ⚠️ Issue Tracker



Found a bug ? Have an enhancement request ? Head over to the [GitHub issue

tracker](https://github.com/althonos/pyhmmer/issues) if you need to report

or ask something. If you are filing in on a bug, please include as much

information as you can about the issue, and try to recreate the same bug

in a simple, easily reproducible situation.



### πŸ—οΈ Contributing



Contributions are more than welcome! See [`CONTRIBUTING.md`](https://github.com/althonos/pyhmmer/blob/master/CONTRIBUTING.md) for more details.



## ⏱️ Benchmarks



Benchmarks were run on a [i7-10710U CPU](https://ark.intel.com/content/www/us/en/ark/products/196448/intel-core-i7-10710u-processor-12m-cache-up-to-4-70-ghz.html) running @1.10GHz with 6 physical / 12

logical cores, using a FASTA file containing 4,489 protein sequences extracted

from the genome of *Escherichia coli*

([`562.PRJEB4685`](https://progenomes.embl.de/genome.cgi))

and the version 33.1 of the [Pfam](https://pfam.xfam.org/) HMM library containing

18,259 domains. Commands were run 3 times on a warm SSD. *Plain lines show

the times for pressed HMMs, and dashed-lines the times for HMMs in text format.*



![Benchmarks](https://raw.github.com/althonos/pyhmmer/master/benches/v0.7.0/plot.svg)



Raw numbers can be found in the [`benches` folder](https://github.com/althonos/pyhmmer/blob/master/benches/).

They suggest that `phmmer` should be run with the number of *logical* cores,

while `hmmsearch` should be run with the number of *physical* cores (or less).

A possible explanation for this observation would be that HMMER

platform-specific code requires too many [SIMD](https://en.wikipedia.org/wiki/SIMD)

registers per thread to benefit from [simultaneous multi-threading](https://en.wikipedia.org/wiki/Simultaneous_multithreading).



To read more about how PyHMMER achieves better parallelism than HMMER for

many-to-many searches, have a look at the [Performance page](https://pyhmmer.readthedocs.io/en/stable/performance.html)

of the documentation.



## πŸ” See Also



Building a HMM from scratch? Then you may be interested in the [`pyfamsa`](https://pypi.org/project/pyfamsa/)

package, providing bindings to [FAMSA](https://github.com/refresh-bio/FAMSA),

a very fast multiple sequence aligner. In addition, you may want to trim alignments:

in that case, consider [`pytrimal`](https://pypi.org/project/pytrimal), which

wraps [trimAl 2.0](https://github.com/inab/trimal/tree/2.0_RC).



If despite of all the advantages listed earlier, you would rather use HMMER

through its CLI, this package will not be of great help. You can instead check

the [`hmmer-py`](https://github.com/EBI-Metagenomics/hmmer-py) package developed

by [Danilo Horta](https://github.com/horta) at the [EMBL-EBI](https://www.ebi.ac.uk).



## βš–οΈ License



This library is provided under the [MIT License](https://choosealicense.com/licenses/mit/).

The HMMER3 and Easel code is available under the

[BSD 3-clause](https://choosealicense.com/licenses/bsd-3-clause/) license.

See `vendor/hmmer/LICENSE` and `vendor/easel/LICENSE` for more information.



*This project is in no way affiliated, sponsored, or otherwise endorsed by

the [original HMMER authors](http://hmmer.org/). It was developed by

[Martin Larralde](https://github.com/althonos/pyhmmer) during his PhD project

at the [European Molecular Biology Laboratory](https://www.embl.de/) in

the [Zeller team](https://github.com/zellerlab).*