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Efficient minimizer orders for large values of k using minimum decycling sets.

David Pellow1, Lianrong Pu1, Bariş Ekim2

  • 1Blavatnik School of Computer Science, Tel-Aviv University, Tel Aviv 6997801, Israel.

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New decycling-set-based minimizer orders improve DNA sequencing analysis by efficiently selecting fewer k-mers for large k values. This enhances data structure and algorithm performance, reducing runtime and memory usage.

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Area of Science:

  • Bioinformatics
  • Computational Biology
  • Genomics

Background:

  • Minimizers are crucial for efficient data handling in high-throughput DNA sequencing.
  • Current minimizer schemes often select excessive k-mers, limiting performance gains.
  • Universal k-mer hitting sets offer improvements but are computationally infeasible for large k.

Purpose of the Study:

  • To introduce novel minimizer orders for large k values in DNA sequencing.
  • To address the limitations of existing minimizer schemes and universal k-mer hitting sets.
  • To enhance the efficiency of data structures and algorithms in bioinformatics.

Main Methods:

  • Developed decycling-set-based minimizer orders.
  • Implemented a method for on-the-fly minimizer computation without storing decycling sets.
  • Evaluated performance against universal k-mer hitting set-based orders.

Main Results:

  • Decycling-set-based minimizer orders select a comparable number of k-mers to universal hitting sets.
  • The new orders scale effectively for large k values.
  • On-the-fly computation enables use for any k, improving runtime and memory efficiency.

Conclusions:

  • Decycling-set-based minimizer orders provide an efficient solution for large k in DNA sequencing.
  • The on-the-fly computation method makes these orders broadly applicable.
  • Expect significant improvements in bioinformatics algorithms and data structures.