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Multiple sequence alignment using multi-objective based bacterial foraging optimization algorithm.

R Ranjani Rani1, D Ramyachitra1

  • 1Department of Computer Science, Bharathiar University, Coimbatore, Tamilnadu, India.

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|October 30, 2016
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Summary
This summary is machine-generated.

Multiple sequence alignment (MSA) is crucial for understanding biological sequences. A novel Multi-Objective Bacterial Foraging Optimization Algorithm (MO-BFO) improves alignment accuracy and identifies conserved blocks, outperforming existing methods.

Keywords:
ABCACOGAGA-ABCMO-BFOMulti-objective optimizationMultiple sequence alignmentPSO

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Area of Science:

  • Computational biology
  • Bioinformatics
  • Evolutionary biology

Background:

  • Multiple sequence alignment (MSA) is fundamental for analyzing nucleotide and amino acid sequences.
  • Accurate MSA is computationally challenging, impacting the discovery of functional, evolutionary, and structural relationships.
  • Existing optimization algorithms often struggle to balance multiple alignment objectives effectively.

Purpose of the Study:

  • To develop and evaluate a novel Multi-Objective Bacterial Foraging Optimization Algorithm (MO-BFO) for enhanced biological sequence alignment.
  • To address the limitations of existing algorithms in achieving optimal accuracy and identifying conserved blocks.
  • To compare the performance of MO-BFO against a wide range of established MSA methods.

Main Methods:

  • Implementation of a Multi-Objective Bacterial Foraging Optimization Algorithm (MO-BFO).
  • Optimization objectives included maximizing similarity and non-gap percentage, and minimizing gap penalty.
  • Validation using the BAliBASE 3.0 benchmark database.
  • Comparative analysis against methods like Clustal Omega, Kalign, MUSCLE, MAFFT, GA, ACO, ABC, PSO, and GA-ABC.

Main Results:

  • The proposed MO-BFO algorithm successfully identified conserved blocks, a limitation in previous hybrid approaches.
  • MO-BFO demonstrated superior alignment accuracy compared to most widely used MSA methods.
  • The algorithm achieved a non-dominated optimal solution by balancing multiple alignment objectives.

Conclusions:

  • The Multi-Objective Bacterial Foraging Optimization Algorithm (MO-BFO) offers a significant advancement in multiple sequence alignment.
  • MO-BFO provides a robust framework for improving the accuracy and biological relevance of sequence alignments.
  • This approach enhances the discovery of functional and evolutionary insights from biological sequence data.