Biopython: freely available Python tools for computational molecular biology and bioinformatics PJA Cock, T Antao, JT Chang, BA Chapman, CJ Cox, A Dalke, I Friedberg, ... Bioinformatics 25 (11), 1422, 2009 | 4934 | 2009 |
Reconstructing the early evolution of Fungi using a six-gene phylogeny TY James, F Kauff, CL Schoch, PB Matheny, V Hofstetter, CJ Cox, G Celio, ... Nature 443 (7113), 818-822, 2006 | 2136 | 2006 |
Assembling the fungal tree of life: progress, classification, and evolution of subcellular traits F Lutzoni, F Kauff, CJ Cox, D McLaughlin, G Celio, B Dentinger, ... American journal of botany 91 (10), 1446-1480, 2004 | 932 | 2004 |
An archaeal origin of eukaryotes supports only two primary domains of life TA Williams, PG Foster, CJ Cox, TM Embley Nature 504 (7479), 231-236, 2013 | 556 | 2013 |
The archaebacterial origin of eukaryotes CJ Cox, PG Foster, RP Hirt, SR Harris, TM Embley Proceedings of the National Academy of Sciences 105 (51), 20356-20361, 2008 | 424 | 2008 |
The interrelationships of land plants and the nature of the ancestral embryophyte MN Puttick, JL Morris, TA Williams, CJ Cox, D Edwards, P Kenrick, ... Current Biology 28 (5), 733-745. e2, 2018 | 421 | 2018 |
Moss diversity: a molecular phylogenetic analysis of genera. Phytotaxa9: 175-195 CJ COX, B GOFFINET, NJ WICKETT, SB BOLES, AJ SHAW | 244* | 2010 |
Three geographically separate domestications of Asian rice P Civáň, H Craig, CJ Cox, TA Brown Nature plants 1 (11), 1-5, 2015 | 236 | 2015 |
Phylogenomics provides robust support for a two-domains tree of life TA Williams, CJ Cox, PG Foster, GJ Szöllősi, TM Embley Nature ecology & evolution 4 (1), 138-147, 2020 | 203 | 2020 |
Conflicting phylogenies for early land plants are caused by composition biases among synonymous substitutions CJ Cox, B Li, PG Foster, TM Embley, P Civáň Systematic Biology 63 (2), 272-279, 2014 | 199 | 2014 |
Extant diversity of bryophytes emerged from successive post-Mesozoic diversification bursts B Laenen, B Shaw, H Schneider, B Goffinet, E Paradis, A Désamoré, ... Nature communications 5 (1), 5134, 2014 | 189 | 2014 |
Phylogeny and Evolution of Medical Species of Candida and Related Taxa: a Multigenic Analysis S Diezmann, CJ Cox, G Schönian, RJ Vilgalys, TG Mitchell Journal of clinical microbiology 42 (12), 5624-5635, 2004 | 187 | 2004 |
Chloroplast phylogeny of asplenioid ferns based on rbcL and trnL-F spacer sequences (Polypodiidae, Aspleniaceae) and its implications for biogeography H Schneider, SJ Russell, CJ Cox, F Bakker, S Henderson, F Rumsey, ... Systematic Botany 29 (2), 260-274, 2004 | 186 | 2004 |
Evolution of the major moss lineages: phylogenetic analyses based on multiple gene sequences and morphology AE Newton, CJ Cox, JG Duckett, JA Wheeler, B Goffinet, TAJ Hedderson, ... The Bryologist 103 (2), 187-211, 2000 | 182 | 2000 |
Resolution of the ordinal phylogeny of mosses using targeted exons from organellar and nuclear genomes Y Liu, MG Johnson, CJ Cox, R Medina, N Devos, A Vanderpoorten, ... Nature Communications 10 (1), 1485, 2019 | 177 | 2019 |
A congruent phylogenomic signal places eukaryotes within the Archaea TA Williams, PG Foster, TMW Nye, CJ Cox, TM Embley Proceedings of the Royal Society B: Biological Sciences 279 (1749), 4870-4879, 2012 | 170 | 2012 |
Phylogenetic evidence of a rapid radiation of pleurocarpous mosses (Bryophyta) AJ Shaw, CJ Cox, B Goffinet, WR Buck, SB Boles Evolution 57 (10), 2226-2241, 2003 | 153 | 2003 |
Polarity of peatmoss (Sphagnum) evolution: who says bryophytes have no roots? AJ Shaw, CJ Cox, SB Boles American journal of botany 90 (12), 1777-1787, 2003 | 149 | 2003 |
Phylogenetic relationships among the mosses based on heterogeneous Bayesian analysis of multiple genes from multiple genomic compartments CJ Cox, B Goffinet, AJ Shaw, SB Boles Systematic Botany 29 (2), 234-250, 2004 | 142 | 2004 |
The Bryophyta (mosses): systematic and evolutionary inferences from an rps4 gene (cpDNA) phylogeny B Goffinet, CJ Cox, AJ Shaw, TAJ Hedderson Annals of botany 87 (2), 191-208, 2001 | 142 | 2001 |