Refin-Align: New Refinement Algorithm For Multiple Sequence Alignment

Authors

  • Ahmed Mokaddem University of Tunis
  • Amine Bel Hadj
  • Mourad Elloumi University of Tunis

DOI:

https://doi.org/10.31449/inf.v43i4.2621

Abstract

In this paper, we present Refin-Align a new refinement algorithm for a multiple sequence alignment. Refining alignment consists on constructing a new more accurate multiple sequence alignment from an initial one by applying some modifications.  Our refinement algorithm Refin-Align uses a new definition of block and also our multiple sequence alignment algorithm Pro-malign. We assess our algorithm Refin-Align on multiple sequence alignment constructed by different algorithms using different benchmarks of protein sequences. In the most cases treated, our algorithm improves the scores of the multiple sequence alignment.

Author Biographies

Ahmed Mokaddem, University of Tunis

Laboratory of Technologies of Information and Communication, and Electrical Engineering (LaTICE)

Mourad Elloumi, University of Tunis

Laboratory of Technologies of Information and Communication, and Electrical Engineering (LaTICE)

References

Needleman B.S., Wunsch, D. C., (1970): “A general method applicable to the search for similarities in the amino-acid sequence of two proteins”, Journal of Molecular Biology, Vol. 48, pp443-453.

Wang, L., Jiang, T., (1994): "On the complexity of multiple

sequence alignment". J. Comput. Biol. 1, pp337-348.

Thompson, J. D., Higgins, D. G., Gibson, T. J., (1994) “CLUSTALW: improving the sensitivity of progressive multiple sequence alignment through sequence weighting, position specific gap penalties and weight matrix choice”, Nucleid Acids Research, Vol. 22, pp 4673-4680.

Notredame, C., Heringa, J., Higgins, D., (2000) ‘T-COFFEE : A novel method for fast and accurate multiple sequence alignments’, J. Molecular Biology, pp 205-217.

Edgar, R.C. (2004) ‘MUSCLE: multiple sequence alignment with high accuracy and high throughput’, Nucleic Acids Research, Vol. 32, pp 1792-1797.

Katoh, K., Kuma, K., Toh, H., Miyata, T., (2013) ‘MAFFT version 7: Improvement in accuracy of multiple sequence alignment’, Molecular Biology and Evolution, Vol. 30, pp 772-780.

Yongtao, Y., Cheung, David, W., Wang, Yadong W., Yin, S. M., Zhang, Q., Lam, T. W., Ting, H. F., (2013) ‘GLProbs: Aligning multiple sequences adaptively’. Computational Biology and Biomedical Informatics ACM , 12(1), pp67-78.

Sievers, Fabian, Higgins, Desmond, G. (2014) ‘Clustal Omega, accurate alignment of very large numbers of sequences’, Multiple Sequence Alignment Methods, Humana Press, pp, 105-116.

Mokaddem A. Elloumi, M., (2012): ‘New distances for improving progressive alignment algorithm’, in Proc. The 2nd International Conference on Advances in Computing and Information Technology, ACITY'12 (Chennai, India), Lecture Notes in Computer Science (LNCS), Springer-Verlag, Berlin, Heidelberg, Germany (Publish.).

Kimura, M. (1983): The Neutral Theory of Molecular Evolution. Cambridge University Press, Cambridge.

Sneath, P., Sokal, R., (1973) "Numerical Taxonomy", Freeman (Publish.), San Francisco:pp2 30-234.

Saitou, N., Nei, M..(1987): “The Neighbor-Joining Method: A New Method for Reconstructing Phylogenetic Trees”, Mol. Biol. Evol. Vol 4, 406-425.

Naznin, F, Sarker. R, Essam D, (2012).” Progressive Alignment Method Using Genetic Algorithm for Multiple Sequence Alignment”, IEEE Transactions on Evolutionary Computation, Vol 16.

Behera, N., Jeevitesh, M. S., Josea, J., Kant, K., Dey, A., Mazher, J., (2017) ‘Higher accuracy protein multiple sequence alignments by genetic algorithm’, Procedia Computer Science, Vol. 108, pp 1135-1144.

Thompson, J. D., Thierry, J. C., Poch, O. (2003) “RASCAL: rapid scanning and correction of multiple sequence alignments”. Bioinformatics, Vol 19, pp 1155–1161.

Chakrabarti, S., Lanczycki, C. J., Panchenko, A. R., Przytycka, T. M., Thiessen, P. A., Bryant, S. H., (2006) ‘Refining multiple sequence alignments with conserved core regions’, Nucleic Acids Res Vol. 34, pp 2598-2606.

Wallace, I.M., Blackshields, G., Higgins, D.G., “Multiple sequence alignments.” Current Opinion in Structural Biology, vol 15, pages 261–266, 2005.

Lyras, Dimitrios P., Metzler, Dirk.(2014) ‘ReformAlign: improved multiple sequence alignments using a profile-based meta-alignment approach’. BMC bioinformatics, Vol. 15, pp. 265.

Mokaddem, A.,Hadj, A. B., Elloumi, M., (2018) ‘Pro-malign: Multiple Sequence Alignment Algorithm using Approached Profile.’ Journal of software.Vol.13 No. 1, pp57-65.

Muller, T., Spang. R, Vingron. M, (2002) “Estimating amino acid substitution models: a comparison of dayhoff’s estimator, the resolvent approach and a maximum likelihood method. Mol Biol Evol, 19(1): 8-13.

Thompson, J.D., Plewniak, F., Poch, O. (1999). “BAliBASE: a benchmark alignment database for the evaluation of multiple alignment programs.” Bioinformatics. 15(1): pp87-88.

Thompson, J.D.,, Koehl P., Ripp R., Poch O.(2005)

“BAliBASE 3.0: latest developments of the multiple sequence alignment benchmark.” PROTEINS: Structure, Function, and Bioinformatics. Vol 61:pp127–136

Raghava, G. P., Searle, S. M., Audley, P. C., Barbe,r J. D., Barton, G. J., (2003) ‘OXBENCH: a benchmark for evaluation of protein multiple sequence alignment accuracy’, BMC Bioinformatics, Vol. 4.

Barton, G.J., Sternberg, M.J.: (1987) “A strategy for the rapid multiple alignment of protein sequences, confidence levels from tertiary structure comparisons”. J Mol Biol , pp: 327–337.

Stebbings, L. A. and Mizuguchi, K., (2004) ‘HOMSTRAD: recent developments of the Homologous Protein Structure Alignment Database’, Nucleic Acids Research, Vol. 32, pp 203-207.

Vol. 43, No. 4 (2019)

Downloads

Published

2019-12-15

How to Cite

Mokaddem, A., Bel Hadj, A., & Elloumi, M. (2019). Refin-Align: New Refinement Algorithm For Multiple Sequence Alignment. Informatica, 43(4). https://doi.org/10.31449/inf.v43i4.2621

Issue

Vol. 43 No. 4 (2019)

Section

Regular papers

License

I assign to Informatica, An International Journal of Computing and Informatics ("Journal") the copyright in the manuscript identified above and any additional material (figures, tables, illustrations, software or other information intended for publication) submitted as part of or as a supplement to the manuscript ("Paper") in all forms and media throughout the world, in all languages, for the full term of copyright, effective when and if the article is accepted for publication. This transfer includes the right to reproduce and/or to distribute the Paper to other journals or digital libraries in electronic and online forms and systems.

I understand that I retain the rights to use the pre-prints, off-prints, accepted manuscript and published journal Paper for personal use, scholarly purposes and internal institutional use.

In certain cases, I can ask for retaining the publishing rights of the Paper. The Journal can permit or deny the request for publishing rights, to which I fully agree.

I declare that the submitted Paper is original, has been written by the stated authors and has not been published elsewhere nor is currently being considered for publication by any other journal and will not be submitted for such review while under review by this Journal.  The Paper contains no material that violates proprietary rights of any other person or entity. I have obtained written permission from copyright owners for any excerpts from copyrighted works that are included and have credited the sources in my article. I have informed the co-author(s) of the terms of this publishing agreement.


Copyright ©  Slovenian Society Informatika