Difference between revisions of "ABruijn"

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==System Variables==
 
==System Variables==
* HPC_{{#uppercase:{{#var:app}}}}_DIR - installation directory
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WRITE_CITATION_HERE
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Yu Lin, Jeffrey Yuan, Mikhail Kolmogorov, Max W Shen, Pavel Pevzner, "Assembly of Long Error-Prone Reads Using de Bruijn Graphs" (http://biorxiv.org/content/early/2016/04/13/048413)
  
 
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Latest revision as of 20:09, 24 August 2022

Description

abruijn website  

ABruijn is a de novo assembler for PacBio and Oxford Nanopore Technologies reads. The algorithm uses an A-Bruijn graph to find the overlaps between reads and does not require them to be error-corrected. First, the algorithm produces a draft assembly by concatenating different parts of raw reads. This coarse sequence is then polished into a high quality assembly.

ABruijn works for both bacterial and eukaryotic genomes. Typically, assembly of a bacteria with 50x coverage takes less than an hour on a modern desktop, while yeast assembly takes about 5 hours. A eukaryotic genome of size 200 Mbp can be assembled within a day on a computational server.

Required Modules

Parallel (OpenMP)

  • gcc/5.2.0
  • abruijn

System Variables

  • HPC_ABRUIJN_DIR - installation directory




Citation

If you publish research that uses abruijn you have to cite it as follows:

Yu Lin, Jeffrey Yuan, Mikhail Kolmogorov, Max W Shen, Pavel Pevzner, "Assembly of Long Error-Prone Reads Using de Bruijn Graphs" (http://biorxiv.org/content/early/2016/04/13/048413)