THREE MSA TOOLS ANALYSIS IN DNA AND PROTEIN DATASETS

AŞIR, FIRAT; KORAK, Tuğcan; Öztürk, Özgür

doi:10.51477/mejs.983750

THREE MSA TOOLS ANALYSIS IN DNA AND PROTEIN DATASETS

Fırat AŞIR, (Dicle Üniversitesi, Tıp Fakültesi, Histoloji ve Embriyoloji Anabilim Dalı, Diyarbakır, TÜRKİYE)

Tuğcan KORAK, (Kocaeli Üniversitesi, Tıp Fakültesi, Tıbbi Biyoloji ve Genetik Anabilim Dalı, Kocaeli, TÜRKİYE)

Özgür ÖZTÜRK (Pharmaceutical Biotechnology, Center for System-based Drug Research, Department of Pharmacy, Ludwig Maximilian University of Munich, ALMANYA)

Middle East Journal of Science

9 2

Yıl: 2021 Cilt: 7 Sayı: 2 Sayfa Aralığı: 89 - 99 Metin Dili: İngilizce DOI: 10.51477/mejs.983750 İndeks Tarihi: 22-05-2022

THREE MSA TOOLS ANALYSIS IN DNA AND PROTEIN DATASETS

Öz:

Multiple sequence alignment (MSA) is the alignment of three or more sequences of DNA,RNA, and protein. MSA is used to construct phylogenetic trees and to compare evolutionaryrelationships between sequences analyzing similarities and dissimilarities. A variety of multiplesequence alignment tools are available, each using different methods and parameters to alignsequences. In this article three MSA tools; CLUSTALW, SAGA, and MAFFT were used to analyze fivedatasets BALiBASE_R9, DIRMBASE, SABmark, DNABali, and ProteinBali. The results showed that MAFFT may be more useful to align DNA and protein sequences than the other two tools.

Anahtar Kelime:

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık

[1] Notredame, C. “Recent Evolutions of Multiple Sequence Alignment Algorithms”, PLOS Computational Biology, 3(8), e123, 2007.
[2] Edgar, R.C., Batzoglou, S. “Multiple sequence alignment”, Current opinion in structural biology, 16(3), 368-373, 2006.
[3] Moretti, S., et al. “The M-Coffee web server: a meta-method for computing multiple sequence alignments by combining alternative alignment methods”, Nucleic Acids Research, 35(Web Server issue), W645-8, 2007.
[4] Chowdhury, B., Garai, G. “A review on multiple sequence alignment from the perspective of genetic algorithm”, Genomics, 109(5), 419-431, 2017.
[5] Edgar, R.C. “MUSCLE: a multiple sequence alignment method with reduced time and space complexity”, BMC Bioinformatics, 5, 113-31, 2004.
[6] Kumar, S., Filipski, A. “Multiple sequence alignment: in pursuit of homologous DNA positions”, Genome Research, 17(2), 127-35, 2007.
[7] Chatzou, M., et al. “Multiple sequence alignment modeling: methods and applications”, Briefings in Bioinformatics, 17(6), 1009-1023, 2016.
[8] Bawono, P., et al. “Multiple Sequence Alignment”, Methods Mol Biol, 1525, 167-189, 2017.
[9] Thompson, J.D. et al. “CLUSTAL W: improving the sensitivity of progressive multiple sequence alignment through sequence weighting, position-specific gap penalties and weight matrix choice”, Nucleic Acids Research, 22(22), 4673-80, 1994.
[10] Notredame, C, Higgins, D.G. “SAGA: Sequence Alignment by Genetic Algorithm”, Nucleic Acids Research, 24(8), 1515-1524, 1996.
[11] Katoh, K., et al. “MAFFT: a novel method for rapid multiple sequence alignment based on fast Fourier transform”, Nucleic Acids Research, 30(14), 3059-66, 2002.
[12] Sievers, F., et al. “Fast, scalable generation of high-quality protein multiple sequence alignments using Clustal Omega”, Molecular Systems Biology, 7, 539-44, 2011.
[13] Pei, J., Grishin, N.V. “MUMMALS: multiple sequence alignment improved by using hidden Markov models with local structural information”, Nucleic Acids Research, 34(16), 4364-4374, 2006.
[14] Do, C.B., et al. “ProbCons: Probabilistic consistency-based multiple sequence alignment”, Genome Research, 15(2), 330-40, 2005.
[15] Notredame, C., et al. “T-Coffee: A novel method for fast and accurate multiple sequence alignment”, Journal of Molecular Biology, 302(1), 205-17, 2000.
[16] Morgenstern, B., et al. “DIALIGN: finding local similarities by multiple sequence alignment”, Bioinformatics, 14(3), 290-4, 1998.
[17] Pei, J., et al. “PROMALS3D: a tool for multiple protein sequence and structure alignments”, Nucleic Acids Research, 36(7), 2295-300, 2008.
[18] Lassmann, T., Sonnhammer, E.L.L. “Kalign – an accurate and fast multiple sequence alignment algorithm”, BMC Bioinformatics, 6(1), 298-306, 2005.
[19] Wallace, I.M., et al. “M-Coffee: combining multiple sequence alignment methods with TCoffee”, Nucleic acids research, 34(6), 1692-1699, 2006.
[20] Van Walle, I., et al. “Align-m--a new algorithm for multiple alignment of highly divergent sequences”, Bioinformatics, 20(9), 1428-35, 2004.
[21] Löytynoja, A., Goldman, N. “Phylogeny-aware gap placement prevents errors in sequence alignment and evolutionary analysis”, Science, 320(5883), 1632-5, 2008.
[22] Löytynoja, A., Goldman, N. “An algorithm for progressive multiple alignment of sequences with insertions”, Proceedings of the National Academy of Sciences of the United States of America, 102(30), 10557-62, 2005.
[23] O'Sullivan, O., et al. “3DCoffee: Combining Protein Sequences and Structures within Multiple Sequence Alignments”, Journal of Molecular Biology, 340(2), 385-395, 2004.
[24] Armougom, F., et al. “Expresso: automatic incorporation of structural information in multiple sequence alignments using 3D-Coffee”, Nucleic acids research, 34(Web Server issue), W604- W608, 2006.
[25] Zou, Q., et al. “HAlign: Fast multiple similar DNA/RNA sequence alignment based on the centre star strategy”, Bioinformatics, 31(15), 2475-81, 2015
[26] Pais, F.S., Ruy, P.C., Oliveira, G. and Coimbra, R.S. “Assessing the efficiency of multiple sequence alignment programs”, Algorithms for Molecular Biology, 9(1), 4-11, 2014.
[27] Subramanian, A.R., et al. “DIALIGN-TX: greedy and progressive approaches for segment-based multiple sequence alignment”, Algorithms for Molecular Biology, 3, 6-16, 2008.
[28] Carillo, H., Lipman, D.J. “The multiple sequence alignment problem in biology”, SIAM Journal on Applied Mathematics, 48, 1073–1082, 1988.
[29] Daugelaite, J., et al. “An Overview of Multiple Sequence Alignments and Cloud Computing in Bioinformatics”, ISRN Biomathematics, 2013, 615-630, 2013.
[30] Hogeweg, P., Hesper, B. “The alignment of sets of sequences and the construction of phyletic trees: an integrated method”, Journal of Molecular Evolution, 20, 175–18, 1984.
[31] Karplus, K., Hu, B.R. “Evaluation of protein multiple alignments by SAM-T99 using the BAliBASE multiple alignment test set”, Bioinformatics, 17, 713–720, 2001.
[32] Lassmann, T., Sonnhammer, E.L.L. “Quality assessment of multiple alignment programs”. FEBS Letters, 529, 126–130, 2002.
[33] Pais, F.S., et al. “Assessing the efficiency of multiple sequence alignment programs”, Algorithms for Molecular Biology, 9(1), 4, 2014.
[34] Anderson, C.L., et al. “SuiteMSA: visual tools for multiple sequence alignment comparison and molecular sequence simulation”, BMC Bioinformatics, 12(1), 184, 2011.
[35] Bahr, A., et al. “BAliBASE (Benchmark Alignment dataBASE): enhancements for repeats, transmembrane sequences and circular permutations”, Nucleic Acids Research, 29 (1), 323-6, 2001.
[36] Menke, M., et al. “Matt: local flexibility aids protein multiple structure alignment”, PLOS Computational Biology, 4(1), e10, 2008.
[37] Van Walle, I., et al. “SABmark--a benchmark for sequence alignment that covers the entire known fold space”, Bioinformatics, 21(7), 1267-1268, 2005.

APA	AŞIR F, KORAK T, Öztürk Ö (2021). THREE MSA TOOLS ANALYSIS IN DNA AND PROTEIN DATASETS . , 89 - 99. 10.51477/mejs.983750
Chicago	AŞIR FIRAT,KORAK Tuğcan,Öztürk Özgür THREE MSA TOOLS ANALYSIS IN DNA AND PROTEIN DATASETS . (2021): 89 - 99. 10.51477/mejs.983750
MLA	AŞIR FIRAT,KORAK Tuğcan,Öztürk Özgür THREE MSA TOOLS ANALYSIS IN DNA AND PROTEIN DATASETS . , 2021, ss.89 - 99. 10.51477/mejs.983750
AMA	AŞIR F,KORAK T,Öztürk Ö THREE MSA TOOLS ANALYSIS IN DNA AND PROTEIN DATASETS . . 2021; 89 - 99. 10.51477/mejs.983750
Vancouver	AŞIR F,KORAK T,Öztürk Ö THREE MSA TOOLS ANALYSIS IN DNA AND PROTEIN DATASETS . . 2021; 89 - 99. 10.51477/mejs.983750
IEEE	AŞIR F,KORAK T,Öztürk Ö "THREE MSA TOOLS ANALYSIS IN DNA AND PROTEIN DATASETS ." , ss.89 - 99, 2021. 10.51477/mejs.983750
ISNAD	AŞIR, FIRAT vd. "THREE MSA TOOLS ANALYSIS IN DNA AND PROTEIN DATASETS ". (2021), 89-99. https://doi.org/10.51477/mejs.983750

APA	AŞIR F, KORAK T, Öztürk Ö (2021). THREE MSA TOOLS ANALYSIS IN DNA AND PROTEIN DATASETS . Middle East Journal of Science, 7(2), 89 - 99. 10.51477/mejs.983750
Chicago	AŞIR FIRAT,KORAK Tuğcan,Öztürk Özgür THREE MSA TOOLS ANALYSIS IN DNA AND PROTEIN DATASETS . Middle East Journal of Science 7, no.2 (2021): 89 - 99. 10.51477/mejs.983750
MLA	AŞIR FIRAT,KORAK Tuğcan,Öztürk Özgür THREE MSA TOOLS ANALYSIS IN DNA AND PROTEIN DATASETS . Middle East Journal of Science, vol.7, no.2, 2021, ss.89 - 99. 10.51477/mejs.983750
AMA	AŞIR F,KORAK T,Öztürk Ö THREE MSA TOOLS ANALYSIS IN DNA AND PROTEIN DATASETS . Middle East Journal of Science. 2021; 7(2): 89 - 99. 10.51477/mejs.983750
Vancouver	AŞIR F,KORAK T,Öztürk Ö THREE MSA TOOLS ANALYSIS IN DNA AND PROTEIN DATASETS . Middle East Journal of Science. 2021; 7(2): 89 - 99. 10.51477/mejs.983750
IEEE	AŞIR F,KORAK T,Öztürk Ö "THREE MSA TOOLS ANALYSIS IN DNA AND PROTEIN DATASETS ." Middle East Journal of Science, 7, ss.89 - 99, 2021. 10.51477/mejs.983750
ISNAD	AŞIR, FIRAT vd. "THREE MSA TOOLS ANALYSIS IN DNA AND PROTEIN DATASETS ". Middle East Journal of Science 7/2 (2021), 89-99. https://doi.org/10.51477/mejs.983750