Sarah Mathews
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Phylotranscriptomic analysis of the origin and early diversification of land plants
NJ Wickett, S Mirarab, N Nguyen, T Warnow, E Carpenter, N Matasci, ...
Proceedings of the National Academy of Sciences 111 (45), E4859-E4868, 2014
The phytochrome apoprotein family inArabidopsis is encoded by five genes: the sequences and expression ofPHYD andPHYE
T Clack, S Mathews, RA Sharrock
Plant molecular biology 25 (3), 413-427, 1994
Phylogeny and subfamilial classification of the grasses (Poaceae)
Grass Phylogeny Working Group, NP Barker, LG Clark, JI Davis, ...
Annals of the Missouri Botanical Garden, 373-457, 2001
Data access for the 1,000 Plants (1KP) project
N Matasci, LH Hung, Z Yan, EJ Carpenter, NJ Wickett, S Mirarab, ...
Gigascience 3 (1), 2047-217X-3-17, 2014
The root of angiosperm phylogeny inferred from duplicate phytochrome genes
S Mathews, MJ Donoghue
Science 286 (5441), 947-950, 1999
Dated molecular phylogenies indicate a Miocene origin for Arabidopsis thaliana
MA Beilstein, NS Nagalingum, MD Clements, SR Manchester, S Mathews
Proceedings of the National Academy of Sciences 107 (43), 18724-18728, 2010
Laurasian migration explains Gondwanan disjunctions: evidence from Malpighiaceae
CC Davis, CD Bell, S Mathews, MJ Donoghue
Proceedings of the National Academy of Sciences 99 (10), 6833-6837, 2002
Recent synchronous radiation of a living fossil
NS Nagalingum, CR Marshall, TB Quental, HS Rai, DP Little, S Mathews
Science 334 (6057), 796-799, 2011
Phytochrome gene diversity
S Mathews, RA Sharrock
Plant, Cell & Environment 20 (6), 666-671, 1997
Phylogenomics and a posteriori data partitioning resolve the Cretaceous angiosperm radiation Malpighiales
Z Xi, BR Ruhfel, H Schaefer, AM Amorim, M Sugumaran, KJ Wurdack, ...
Proceedings of the National Academy of Sciences 109 (43), 17519-17524, 2012
Evolutionary history of the angiosperm flora of China
LM Lu, LF Mao, T Yang, JF Ye, B Liu, HL Li, M Sun, JT Miller, S Mathews, ...
Nature 554 (7691), 234-238, 2018
Hemisphere-scale differences in conifer evolutionary dynamics
AB Leslie, JM Beaulieu, HS Rai, PR Crane, MJ Donoghue, S Mathews
Proceedings of the National Academy of Sciences 109 (40), 16217-16221, 2012
The root of the angiosperms revisited
MJ Zanis, DE Soltis, PS Soltis, S Mathews, MJ Donoghue
Proceedings of the National Academy of Sciences 99 (10), 6848-6853, 2002
Phylogeny of the parasitic plant family Orobanchaceae inferred from phytochrome A
JR Bennett, S Mathews
American Journal of Botany 93 (7), 1039-1051, 2006
Phylogenetic signal in nucleotide data from seed plants: implications for resolving the seed plant tree of life
JG Burleigh, S Mathews
American Journal of Botany 91 (10), 1599-1613, 2004
Brassicaceae phylogeny inferred from phytochrome A and ndhF sequence data: tribes and trichomes revisited
MA Beilstein, IA Al-Shehbaz, S Mathews, EA Kellogg
American Journal of Botany 95 (10), 1307-1327, 2008
Hydatellaceae identified as a new branch near the base of the angiosperm phylogenetic tree
JM Saarela, HS Rai, JA Doyle, PK Endress, S Mathews, AD Marchant, ...
Nature 446 (7133), 312-315, 2007
Phytochrome‐mediated development in land plants: red light sensing evolves to meet the challenges of changing light environments
S Mathews
Molecular Ecology 15 (12), 3483-3503, 2006
Phylogenetic structure in the grass family (Poaceae): evidence from the nuclear gene phytochrome B
S Mathews, RC Tsai, EA Kellogg
American Journal of Botany 87 (1), 96-107, 2000
The phytochrome gene family in grasses (Poaceae): a phylogeny and evidence that grasses have a subset of the loci found in dicot angiosperms.
S Mathews, RA Sharrock
Molecular Biology and Evolution 13 (8), 1141-1150, 1996
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