cogent3 is a mature python library for analysis of genomic sequence data. We endeavour to provide a first-class experience within Jupyter notebooks, but the algorithms also support parallel execution on compute systems with 1000's of processors.
Faster sequence format parsers ๐จ
We have faster implementations of the parsers for Fasta and GenBank sequence formats. These are used by our standard loading mechanisms. If you just want to get the contents of files in those formats as standard Python types, use cogent3.parser.fasta.iter_fasta_records() or cogent3.parser.genbank.iter_genbank_records().
Supporting third-party apps as plugins ๐
Cogent3 now provides support for plugins! Third-party developers can deploy their code as cogent3 apps with just a few lines. See the demo project.
Post any questions you have in cogent3 discussions.
The developers of Cogent3 and IQ-TREE2 announce piqtree2 ๐
Speaking of plugins, our first major third-party plugin is piqtree2. Try it out and give us feedback.
New core data types improve efficiency and flexibility
The cogent3 development team ๐พ are hard at work modernising the core internals ๐ช๐ .
In this release the Sequence, SequenceCollection, MolType, GeneticCode, and alphabet classes have all been rewritten from scratch with an eye to simplifying the code while improving its flexibility and performance. (We're working on alignments for the next release.)
The "new-style" objects enhance performance by supporting the access of the underlying data in various formats (i.e. numpy arrays, bytes or strings). You can create "new-style" objects by setting the new_type=True argument in top-level functions (make_seq, load_seq, make_unaligned_seqs, get_moltype, get_code). These are not yet the default and are not fully integrated into the existing code. They can also differ in their API relative to the classes they replace.
We encourage experimentation in cases where integration with old objects is NOT required and look forward to any feedback!
cogent3 is unique in providing numerous non-stationary Markov models for modelling sequence evolution, including codon models. cogent3 also includes an extensive collection of time-reversible models (again including novel codon models). We have done more than just invent these new methods, we have established the most robust algorithms for their implementation and their suitability for real data. Additionally, there are novel signal processing methods focussed on statistical estimation of integer period signals.
๐ฌ Demo non-reversible substitution model
cogent3-demo-composable.mp4
Beyond our novel methods, cogent3 provides an extensive suite of capabilities for manipulating and analysing sequence data. You can manipulate sequences by their annotations, e.g.
๐ฌ Demo sequences with annotations
cogent3-demo-new-ann.mp4
Plus, you can read standard tabular and biological data formats, perform multiple sequence alignment using any cogent3 substitution models, phylogenetic reconstruction and tree manipulation, manipulation of tabular data, visualisation of phylogenies and much more.
Our cogent3.app module provides a very different approach to using the library capabilities. Expertise in structural programming concepts is not essential!
๐ฌ Demo friendly coding
cogent3-demo-composable.mp4
$ pip install cogent3The extra group includes python libraries required for visualisation, i.e. plotly, kaleido, psutil and pandas.
$ pip install "cogent3[extra]"The dev group includes python libraries required for development of cogent3.
$ pip install "cogent3[dev]"$ pip install git+https://github.com/cogent3/cogent3.git@develop#egg=cogent3cogent3 is released under the BSD-3 license, documentation is at cogent3.org, while cogent3 code is on GitHub. If you would like to contribute (and we hope you do!), we have created a companion c3dev GitHub repo which provides details on how to contribute and some useful tools for doing so.
cogent3 is a descendant of PyCogent. While there is much in common with PyCogent, the amount of change has been substantial, motivating the name change to cogent3. This name has been chosen because cogent was always the import name (dating back to PyEvolve in 2004) and it's Python 3 only.
Given this history, we are grateful to the multitude of individuals who have made contributions over the years. Many of these contributors were also co-authors on the original PyEvolve and PyCogent publications. Individual contributions can be seen by using "view git blame" on individual lines of code on GitHub , through git log in the terminal, and more recently the changelog.
Compared to PyCogent version 1.9, there has been a massive amount of changes. These include integration of many of the new developments on algorithms and modelling published by the Huttley lab over the last decade. We have also modernised our dependencies. For example, we now use plotly for visualisation, tqdm for progress bar display, concurrent.futures and mpi4py.futures for parallel process execution, nox and pytest for unit testing.
Cogent3 has received funding support from the Australian National University and an Essential Open Source Software for Science Grant from the Chan Zuckerberg Initiative.
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