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A Bioinformatics demo in Python working with FASTQ files and using the Modin library

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A Bioinformatics Demo in Python

Description

The Goal

The goal was to write a new program without using existing tools to solve the following problem.
We have a FASTQ file in the GZIP format and an adapter sequence list as the inputs.
We would like to implement some filtering on the FASTQ file and output clean results also in the GZIP format.
The filtering steps include poly (X) detection and adapter search.
Aside of FASTQ, we'd also like to output the number of each filter item, such as how many reads were filtered by polyX or by an adapter.
We wish to have a high-performance design based on multiple threads for I/O and for the algorithm of sequences search.

The Filtering Process (in order)

  1. Search for polyX whose length is less than or equal to 15 in the sequence, allowing 1 mismatch. If poly-X is found, the read will be discarded.
  2. If the poly-X is not found, then search for the adapter whose length is less than or equal to 32 bp in the sequence without any mismatch.
    If the adapter is found, which means it is identical to a part of the sequence, the record is to be discarded.
  3. If the adapter is not found either, the read shall be considered as a clean one and shall be output to the result file.
  4. Count how many records are filtered due to the existence of poly-X and adapter respectively.

Test data

  • Inputs: a FASTQ file (input.fq.gz) and an adapter sequence list (adapter.list)
  • Outputs: a FASTQ file (out.fq.gz) and filter stat (out.stat.txt)

Glossary

  • FASTQ: Stores sequences and Phred qualities in a single file.
  • polyX: Include polyA, polyC, polyG, polyT, for example: AAAAAAAAAAAAAAA, CCCCCCCCCCCCCC.
  • Adapter: A short DNA sequence that includes A/C/G/T bases which should be trimmed or discarded from a read.

Activating Virtual Environment

On Windows:
.\venv\Scripts\activate

Running the program

Run the Python interpreter and the program from the main project directory, named bioinf_demo.
The main "executable" file is located inside the bin subdirectory.
python bin/bioinf_demo.py

Implementation

  • Has both Naive and Prefix Trie Matching
  • Has both sequential and parallel implementations

Modin is very easy to translate to from Pandas. It preserves the order of records in the output file. Modin can be used on a single computer (shared-memory model), or in a cluster (distributed-memory model). It can read and process larger-than-memory files.

Remarks & Notes

  • FASTQ files are mostly used to store short-read data from high-throughput sequencing experiments. The sequence and quality scores are usually put into a single line each, and indeed many tools assume that each record in a FASTQ file is exactly four lines long, even though this isn’t guaranteed. Source.

Potential Improvements

  • biopython supports PyPy as documented on its PyPI page.
  • pyfastx didn't support Python 3.10 at the time of experimenting; it didn't want to install.

Run Tests

Unit Tests

The unittest runner will run both unit tests and doctests if they exist.

python -m unittest

For verbose output:

python -m unittest -v

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A Bioinformatics demo in Python working with FASTQ files and using the Modin library

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