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    Area of Science:

    • Bioinformatics
    • Computational Biology
    • Genomics

    Background:

    • Next-generation sequencing generates vast biological data, necessitating efficient algorithms for information extraction.
    • Identifying patterns, such as the closest l-mers, is fundamental for analyzing large biological datasets.

    Purpose of the Study:

    • To develop novel algorithms for finding the closest l-mers across multiple biological strings.
    • To address the challenge of minimizing Hamming distance among selected l-mers from different sequences.

    Main Methods:

    • Focus on the fundamental problem of finding the closest l-mers within a set of m biological strings.
    • Propose novel algorithms specifically designed for this closest l-mer problem.
    • Conduct comprehensive experimental evaluations for m=3, and empirical studies for m=4 and m=5.

    Main Results:

    • The study introduces new algorithmic approaches for the closest l-mer problem.
    • Experimental results validate the performance of the proposed algorithms, particularly for small values of m.

    Conclusions:

    • The developed algorithms offer effective solutions for extracting crucial information from large biological datasets.
    • These methods have direct applications in areas like motif search and the (l,d)-motif search problem.