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C<sub>4</sub> photosynthesis provided an immediate demographic advantage to populations of the grass Alloteropsis semialata.
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- New Phytologist, 2024, v. 242, n. 2, p. 774, doi. 10.1111/nph.19606
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- Article
Lateral gene transfer generates accessory genes that accumulate at different rates within a grass lineage.
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- New Phytologist, 2023, v. 240, n. 5, p. 2072, doi. 10.1111/nph.19272
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- Article
The mechanisms underpinning lateral gene transfer between grasses.
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- Plants, People, Planet, 2023, v. 5, n. 5, p. 672, doi. 10.1002/ppp3.10347
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- Article
Alloteropsis semialata as a study system for C<sub>4</sub> evolution in grasses.
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- Annals of Botany, 2023, v. 132, n. 3, p. 365, doi. 10.1093/aob/mcad078
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- Article
Leaf anatomy explains the strength of C<sub>4</sub> activity within the grass species Alloteropsis semialata.
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- Plant, Cell & Environment, 2023, v. 46, n. 8, p. 2310, doi. 10.1111/pce.14607
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- Article
Upregulation of C<sub>4</sub> characteristics does not consistently improve photosynthetic performance in intraspecific hybrids of a grass.
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- Plant, Cell & Environment, 2022, v. 45, n. 5, p. 1398, doi. 10.1111/pce.14301
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- Article
Sample Sequence Analysis Uncovers Recurrent Horizontal Transfers of Transposable Elements among Grasses.
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- Molecular Biology & Evolution, 2021, v. 38, n. 9, p. 3664, doi. 10.1093/molbev/msab133
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Widespread lateral gene transfer among grasses.
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- New Phytologist, 2021, v. 230, n. 6, p. 2474, doi. 10.1111/nph.17328
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- Article
Low dispersal and ploidy differences in a grass maintain photosynthetic diversity despite gene flow and habitat overlap.
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- Molecular Ecology, 2021, v. 30, n. 9, p. 2116, doi. 10.1111/mec.15871
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- Article
The morphogenesis of fast growth in plants.
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- New Phytologist, 2020, v. 228, n. 4, p. 1306, doi. 10.1111/nph.16892
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- Article
Lateral Gene Transfer Acts As an Evolutionary Shortcut to Efficient C<sub>4</sub> Biochemistry.
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- Molecular Biology & Evolution, 2020, v. 37, n. 11, p. 3094, doi. 10.1093/molbev/msaa143
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- Article
Kinetic Modifications of C<sub>4</sub> PEPC Are Qualitatively Convergent, but Larger in Panicum Than in Flaveria.
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- Frontiers in Plant Science, 2020, v. 11, p. 1, doi. 10.3389/fpls.2020.01014
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- Article
Phylogenomics indicates the "living fossil" Isoetes diversified in the Cenozoic.
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- PLoS ONE, 2020, v. 15, n. 6, p. 1, doi. 10.1371/journal.pone.0227525
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- Article
Continued Adaptation of C<sub>4</sub> Photosynthesis After an Initial Burst of Changes in the Andropogoneae Grasses.
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- Systematic Biology, 2020, v. 69, n. 3, p. 445, doi. 10.1093/sysbio/syz066
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- Article
Reticulate evolution, lateral gene transfer, and innovation in plants.
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- American Journal of Botany, 2020, v. 107, n. 4, p. 541, doi. 10.1002/ajb2.1452
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- Article
Phylogenomics using low‐depth whole genome sequencing: A case study with the olive tribe.
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- Molecular Ecology Resources, 2019, v. 19, n. 4, p. 877, doi. 10.1111/1755-0998.13016
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- Article
Key changes in gene expression identified for different stages of C 4 evolution in Alloteropsis semialata.
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- Journal of Experimental Botany, 2019, v. 70, n. 12, p. 3255, doi. 10.1093/jxb/erz149
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- Article
C<sub>4</sub> anatomy can evolve via a single developmental change.
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- Ecology Letters, 2019, v. 22, n. 2, p. 302, doi. 10.1111/ele.13191
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- Article
Gene duplication and dosage effects during the early emergence of C<sub>4</sub> photosynthesis in the grass genus Alloteropsis.
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- Journal of Experimental Botany, 2018, v. 69, n. 8, p. 1967, doi. 10.1093/jxb/ery029
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- Article
C<sub>4</sub> photosynthesis evolved in warm climates but promoted migration to cooler ones.
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- Ecology Letters, 2018, v. 21, n. 3, p. 376, doi. 10.1111/ele.12905
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- Article
Highly Expressed Genes Are Preferentially Co-Opted for C<sub>4</sub> Photosynthesis.
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- Molecular Biology & Evolution, 2018, v. 35, n. 1, p. 94, doi. 10.1093/molbev/msx269
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- Article
One-third of the plastid genes evolved under positive selection in PACMAD grasses.
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- Planta: An International Journal of Plant Biology, 2018, v. 247, n. 1, p. 255, doi. 10.1007/s00425-017-2781-x
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- Article
Introgression and repeated co-option facilitated the recurrent emergence of C<sub>4</sub> photosynthesis among close relatives.
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- Evolution, 2017, v. 71, n. 6, p. 1541, doi. 10.1111/evo.13250
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- Article
How did the domestication of Fertile Crescent grain crops increase their yields?
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- Functional Ecology, 2017, v. 31, n. 2, p. 387, doi. 10.1111/1365-2435.12760
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- Article
Traces of strong selective pressures in the genomes of C<sub>4</sub> grasses.
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- Journal of Experimental Botany, 2017, v. 68, n. 2, p. 103, doi. 10.1093/jxb/erw390
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- Article
Photosynthesis in C<sub>3</sub>-C<sub>4</sub> intermediate Moricandia species.
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- Journal of Experimental Botany, 2017, v. 68, n. 2, p. 191, doi. 10.1093/jxb/erw391
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- Article
Despite phylogenetic effects, C<sub>3</sub>-C<sub>4</sub> lineages bridge the ecological gap to C<sub>4</sub> photosynthesis.
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- Journal of Experimental Botany, 2017, v. 68, n. 2, p. 241, doi. 10.1093/jxb/erw451
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- Article
Genome biogeography reveals the intraspecific spread of adaptive mutations for a complex trait.
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- Molecular Ecology, 2016, v. 25, n. 24, p. 6107, doi. 10.1111/mec.13914
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- Article
Evolutionary implications of C<sub>3</sub>-C<sub>4</sub> intermediates in the grass Alloteropsis semialata.
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- Plant, Cell & Environment, 2016, v. 39, n. 9, p. 1874, doi. 10.1111/pce.12665
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- Article
Phylogeny and generic delimitation in Molluginaceae, new pigment data in Caryophyllales, and the new family Corbichoniaceae.
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- Taxon, 2016, v. 65, n. 4, p. 775, doi. 10.12705/654.6
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- Article
Determinants of flammability in savanna grass species.
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- Journal of Ecology, 2016, v. 104, n. 1, p. 138, doi. 10.1111/1365-2745.12503
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- Article
Fire ecology of C<sub>3</sub> and C<sub>4</sub> grasses depends on evolutionary history and frequency of burning but not photosynthetic type.
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- Ecology, 2015, v. 96, n. 10, p. 2679, doi. 10.1890/14-1495.1
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- Article
Photosynthetic innovation broadens the niche within a single species.
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- Ecology Letters, 2015, v. 18, n. 10, p. 1021, doi. 10.1111/ele.12484
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- Article
Were Fertile Crescent crop progenitors higher yielding than other wild species that were never domesticated?
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- New Phytologist, 2015, v. 207, n. 3, p. 905, doi. 10.1111/nph.13353
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- Article
Genetic Enablers Underlying the Clustered Evolutionary Origins of C<sub>4</sub> Photosynthesis in Angiosperms.
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- Molecular Biology & Evolution, 2015, v. 32, n. 4, p. 846, doi. 10.1093/molbev/msu410
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From museums to genomics: old herbarium specimens shed light on a C3 to C4 transition.
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- Journal of Experimental Botany, 2014, v. 65, n. 22, p. 6711, doi. 10.1093/jxb/eru395
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- Article
The evolutionary ecology of C<sub>4</sub> plants.
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- New Phytologist, 2014, v. 204, n. 4, p. 765, doi. 10.1111/nph.13033
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- Article
Shared origins of a key enzyme during the evolution of C4 and CAM metabolism.
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- Journal of Experimental Botany, 2014, v. 65, n. 13, p. 1, doi. 10.1093/jxb/eru087
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- Article
Deconstructing Kranz anatomy to understand C4 evolution.
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- Journal of Experimental Botany, 2014, v. 65, n. 13, p. 1, doi. 10.1093/jxb/eru186
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- Article
C<sub>4</sub> Photosynthesis Promoted Species Diversification during the Miocene Grassland Expansion.
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- PLoS ONE, 2014, v. 9, n. 5, p. 1, doi. 10.1371/journal.pone.0097722
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- Article
Molecular Dating, Evolutionary Rates, and the Age of the Grasses.
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- Systematic Biology, 2014, v. 63, n. 2, p. 153, doi. 10.1093/sysbio/syt072
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- Article
Phylogenomics and taxonomy of Lecomtelleae (Poaceae), an isolated panicoid lineage from Madagascar.
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- Annals of Botany, 2013, v. 112, n. 6, p. 1057, doi. 10.1093/aob/mct174
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- Article
Parallel Recruitment of Multiple Genes into C4 Photosynthesis.
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- Genome Biology & Evolution, 2013, v. 5, n. 11, p. 2174, doi. 10.1093/gbe/evt168
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- Article
The recurrent assembly of C photosynthesis, an evolutionary tale.
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- Photosynthesis Research, 2013, v. 117, n. 1-3, p. 163, doi. 10.1007/s11120-013-9852-z
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Multiple photosynthetic transitions, polyploidy, and lateral gene transfer in the grass subtribe Neurachninae.
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- Journal of Experimental Botany, 2012, v. 63, n. 17, p. 6297, doi. 10.1093/jxb/ers282
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- Article
The C4 plant lineages of planet Earth.
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- Journal of Experimental Botany, 2011, v. 62, n. 11, p. 3155, doi. 10.1093/jxb/err048
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- Article
C4 eudicots are not younger than C4 monocots.
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- Journal of Experimental Botany, 2011, v. 62, n. 11, p. 3171, doi. 10.1093/jxb/err041
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- Article
Seasonal Net Ecosystem Carbon Exchange of a Regenerating Cutaway Bog: How Long Does it Take to Restore the C-Sequestration Function?
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- Restoration Ecology, 2011, v. 19, n. 4, p. 480, doi. 10.1111/j.1526-100X.2010.00662.x
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- Article
The C4 plant lineages of planet Earth.
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- Journal of Experimental Botany, 2011, v. 62, n. 9, p. 3155, doi. 10.1093/jxb/err048
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- Article
C4 eudicots are not younger than C4 monocots.
- Published in:
- Journal of Experimental Botany, 2011, v. 62, n. 9, p. 3171, doi. 10.1093/jxb/err041
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- Article