A Maximum Parsimony Model To Reconstruct Phylogenetic Network In Honey Bee Evolution
| Autor: | Usha Chouhan, K. R. Pardasani |
|---|---|
| Jazyk: | angličtina |
| Rok vydání: | 2007 |
| Předmět: | |
| DOI: | 10.5281/zenodo.1077842 |
| Popis: | Phylogenies ; The evolutionary histories of groups of species are one of the most widely used tools throughout the life sciences, as well as objects of research with in systematic, evolutionary biology. In every phylogenetic analysis reconstruction produces trees. These trees represent the evolutionary histories of many groups of organisms, bacteria due to horizontal gene transfer and plants due to process of hybridization. The process of gene transfer in bacteria and hybridization in plants lead to reticulate networks, therefore, the methods of constructing trees fail in constructing reticulate networks. In this paper a model has been employed to reconstruct phylogenetic network in honey bee. This network represents reticulate evolution in honey bee. The maximum parsimony approach has been used to obtain this reticulate network. {"references":["C. Dutta And A. Pan,\"Horizontal gene transfer and bacterial diversity\"\n,J. Biosci. (Suppl. 1) 27 27-33, 2002.","C.T Nguyen,B. Nguyen, W.K.Sung and L. Zhang,-Reconstructing\nRecombination Network from Sequence Data :The Small Parsimoney\nProblem\",IEEE CS,Cl and EMB Societies & the ACM,Vol.4,No.3,pg\n394-401,2007.","D.H. Huson and D. Bryant,\"Application of Phylogenetic Networks in\nEvolutionary Studies\", Mol. Biol. Evol. 23(2):254-267. 2006.","G. Jin, L. Nakhleh, S. Snir and T. Tulle,\"Efficient parsimony based\nmethods for phylogenetic network Reconstruction\",Vol. 23 ECCB,\npages e123-e128. 2006.","J. Hein,\"Reconstructing evolution of sequences subject to recombination\nusing parsimon\",Maths.Biosci.98, 185-200, 1990.","J. Hein,\"A heuristic method to reconstruct the history of sequences\nsubject to recombination\",J.mol.Evol.36,396-405, 1993.","J. Archer, J. W. Pinney, J. Fan, E. S Loriere,\" Identifying the Important\nHIV-1 Recombination Breakpoints\", PLoS Comput Biol. 4(9):\ne1000178, 2008.","M.T Hallet and J. Lagergren,\"Efficient algorithms for lateral gene\ntransfer problems. In: Proceedings of the 5th Ann Int Conf Compt Mol\nBiol (RECOMB 01), New York, and ASM Press. pp 149-156, 2001.","L. Nakhleh, D. Ruth-s,\"Gene Trees, species Trees, and species\nNetworks\", Lecture notes. RECOMB, San Diego, California USA, 1:1-\n24, 2003.\n[10] L. Nakhleh,G.J.,F Zhao,\"Reconstructing Phylogenetic Networks Using\nMaximum Parsimony\", RECOMB, USA, 1:200-210, 2004.\n[11] L. O. Martins,E.Leal,H. Kishino,\"Phylogenetic Detection of\nRecombination with a Bayesian Prior on the Distance between\nTrees\",PLoS One,Volume 3,Issue 7,July 2008,e2651.\n[12] V. Makarenkov, P . Legendre and Y. Desdevises,\"Modeling\nphylogenetic relationships using reticulated networks\",Zool Scrip\n33:89-96, 2004.\n[13] V. Makarenkov,\"T-Rex: reconstructing and visualizing phylogenetic\ntrees and reticulation networks,\",Bioinf 17:664-668, 2001.\n[14] V. Makarenkov and P. Legendre ,\"From a phylogenetic tree to a\nreticulated network\", J Comput Biol 11:195-212, 2004.\n[15] D. Posada and K.A Crandall,\"Evaluation of methods for detecting\nrecombination from DNA sequences: Computer simulations\", Proc Natl\nAcad Sci USA 98(24):13757-13762, 2001.\n[16] W.K Sung, \"Phylogenetic Trees Reconstruction\", CS5238: 1-7, 2005."]} |
| Databáze: | OpenAIRE |
| Externí odkaz: |
|