Phylogenetics C Semple Oxford University Press, 2003 | 1796 | 2003 |
Recovering evolutionary trees under a more realistic model of sequence evolution MD Lockhart, P.J. Steel, M.A. Penny, D. and Hendy Molecular Biology and Evolution 11 (4), 605-612, 1994 | 1146 | 1994 |
The complexity of reconstructing trees from qualitative characters and subtrees M Steel Journal of Classification 9 (1), 91-116, 1992 | 608 | 1992 |
Subtree transfer operations and their induced metrics on evolutionary trees BL Allen, M Steel Annals of combinatorics 5, 1-15, 2001 | 476 | 2001 |
Neighbor-joining revealed O Gascuel, M Steel Molecular biology and evolution 23 (11), 1997-2000, 2006 | 427 | 2006 |
Distributions of tree comparison metrics—some new results MA Steel, D Penny Systematic biology 42 (2), 126-141, 1993 | 404 | 1993 |
Parsimony, likelihood, and the role of models in molecular phylogenetics M Steel, D Penny Molecular biology and evolution 17 (6), 839-850, 2000 | 402 | 2000 |
A genome phylogeny for mitochondria among α-proteobacteria and a predominantly eubacterial ancestry of yeast nuclear genes C Esser, N Ahmadinejad, C Wiegand, C Rotte, F Sebastiani, ... Molecular biology and evolution 21 (9), 1643-1660, 2004 | 399 | 2004 |
Links between maximum likelihood and maximum parsimony under a simple model of site substitution C Tuffley, M Steel Bulletin of mathematical biology 59, 581-607, 1997 | 353 | 1997 |
Recovering a tree from the leaf colourations it generates under a Markov model M Steel Applied Mathematics Letters 7 (2), 19-23, 1994 | 339 | 1994 |
The (super) tree of life: procedures, problems, and prospects ORP Bininda-Emonds, JL Gittleman, MA Steel Annual Review of Ecology and Systematics 33 (1), 265-289, 2002 | 324 | 2002 |
Phylogeny: discrete and random processes in evolution M Steel Society for Industrial and Applied Mathematics, 2016 | 310 | 2016 |
Modeling the covarion hypothesis of nucleotide substitution C Tuffley, M Steel Mathematical biosciences 147 (1), 63-91, 1998 | 304 | 1998 |
Detecting autocatalytic, self-sustaining sets in chemical reaction systems W Hordijk, M Steel Journal of theoretical biology 227 (4), 451-461, 2004 | 279 | 2004 |
The influence of rate heterogeneity among sites on the time dependence of molecular rates J Soubrier, M Steel, MSY Lee, C Der Sarkissian, S Guindon, SYW Ho, ... Molecular biology and evolution 29 (11), 3345-3358, 2012 | 275 | 2012 |
A few logs suffice to build (almost) all trees: part II PL Erdös, LE P'eter, LA Székely, MA Steel, TJ Warnow | 271 | 1998 |
Acquisition of 1,000 eubacterial genes physiologically transformed a methanogen at the origin of Haloarchaea S Nelson-Sathi, T Dagan, G Landan, A Janssen, M Steel, JO McInerney, ... Proceedings of the National Academy of Sciences 109 (50), 20537-20542, 2012 | 260 | 2012 |
Likelihood-based tree reconstruction on a concatenation of aligned sequence data sets can be statistically inconsistent S Roch, M Steel Theoretical population biology 100, 56-62, 2015 | 259 | 2015 |
Evolution of chlorophyll and bacteriochlorophyll: the problem of invariant sites in sequence analysis PJ Lockhart, AW Larkum, M Steel, PJ Waddell, D Penny Proceedings of the National Academy of Sciences 93 (5), 1930, 1996 | 257 | 1996 |
General time-reversible distances with unequal rates across sites: Mixing [Gamma] and inverse Gaussian distributions with invariant sites PJ Waddell, MA Steel Molecular Phylogenetics and Evolution 8 (3), 398-414, 1997 | 256 | 1997 |