A covariotide model explains apparent phylogenetic structure of oxygenic photosynthetic lineages

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ORIGINAL ARTICLE

A covariotide model explains apparent phylogenetic structure of oxygenic photosynthetic lineages

PJ Lockhart, MA Steel, AC Barbrook, DH Huson, MA Charleston and CJ Howe
Institute of Molecular Biosciences, Massey University, Palmerston North, New Zealand. p.j.lockhart@massey.ac.nz

The aims of the work were (1) to develop statistical tests to identify whether substitution takes place under a covariotide model in sequences used for phylogenetic inference and (2) to determine the influence of covariotide substitution on phylogenetic trees inferred for photosynthetic and other organisms. (Covariotide and covarion models are ones in which sites that are variable in some parts of the underlying tree are invariable in others and vice versa.) Two tests were developed. The first was a contingency test, and the second was an inequality test comparing the expected number of variable sites in two groups with the observed number. Application of these tests to 16S rDNA and tufA sequences from a range of nonphotosynthetic prokaryotes and oxygenic photosynthetic prokaryotes and eukaryotes suggests the occurrence of a covariotide mechanism. The degree of support for partitioning of taxa in reconstructed trees involving these organisms was determined in the presence or absence of sites showing particular substitution patterns. This analysis showed that the support for splits between (1) photosynthetic eukaryotes and prokaryotes and (2) photosynthetic and nonphotosynthetic organisms could be accounted for by patterns arising from covariotide substitution. We show that the additional problem of compositional bias in sequence data needs to be considered in the context of patterns of covariotide/covarion substitution. We argue that while covariotide or covarion substitution may give rise to phylogenetically informative patterns in sequence data, this may not always be so.
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				N. Gruenheit, P. J. Lockhart, M. Steel, and W. Martin Difficulties in Testing for Covarion-Like Properties of Sequences under the Confounding Influence of Changing Proportions of Variable Sites Mol. Biol. Evol., July 1, 2008; 25(7): 1512 - 1520. [Abstract] [Full Text] [PDF]

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Molecular Biology and Evolution

ORIGINAL ARTICLE

A covariotide model explains apparent phylogenetic structure of oxygenic photosynthetic lineages

				K. Roelants and F. Bossuyt Archaeobatrachian Paraphyly and Pangaean Diversification of Crown-Group Frogs Syst Biol, February 1, 2005; 54(1): 111 - 126. [Abstract] [Full Text] [PDF]

				E. Susko, Y. Inagaki, C. Field, M. E. Holder, and A. J. Roger Testing for Differences in Rates-Across-Sites Distributions in Phylogenetic Subtrees Mol. Biol. Evol., September 1, 2002; 19(9): 1514 - 1523. [Abstract] [Full Text] [PDF]

				J. P. Huelsenbeck Testing a Covariotide Model of DNA Substitution Mol. Biol. Evol., May 1, 2002; 19(5): 698 - 707. [Abstract] [Full Text] [PDF]

				P. Lopez, D. Casane, and H. Philippe Heterotachy, an Important Process of Protein Evolution Mol. Biol. Evol., January 1, 2002; 19(1): 1 - 7. [Abstract] [Full Text] [PDF]

				A. R. Omilian and D. J. Taylor Rate Acceleration and Long-branch Attraction in a Conserved Gene of Cryptic Daphniid (Crustacea) Species Mol. Biol. Evol., December 1, 2001; 18(12): 2201 - 2212. [Abstract] [Full Text] [PDF]

				N. Galtier Maximum-Likelihood Phylogenetic Analysis Under a Covarion-like Model Mol. Biol. Evol., May 1, 2001; 18(5): 866 - 873. [Abstract] [Full Text]

				H. G. Morrison, A. J. Roger, T. G. Nystul, F. D. Gillin, and M. L. Sogin Giardia lamblia Expresses a Proteobacterial-like DnaK Homolog Mol. Biol. Evol., April 1, 2001; 18(4): 530 - 541. [Abstract] [Full Text] [PDF]

				E. A. Gaucher, M. M. Miyamoto, and S. A. Benner Function-structure analysis of proteins using covarion-based evolutionary approaches: Elongation factors PNAS, January 16, 2001; 98(2): 548 - 552. [Abstract] [Full Text] [PDF]

				M. A. M. van Dijk, O. Madsen, F. Catzeflis, M. J. Stanhope, W. W. de Jong, and M. Pagel Protein sequence signatures support the African clade of mammals PNAS, December 8, 2000; (2000) 250216797. [Abstract] [Full Text]

				H. Philippe* and and A. Germot Phylogeny of Eukaryotes Based on Ribosomal RNA: Long-Branch Attraction and Models of Sequence Evolution Mol. Biol. Evol., May 1, 2000; 17(5): 830 - 834. [Full Text] [PDF]