Samuel F. Brockington, Ph.D.
Affiliations: | University of Cambridge, Cambridge, England, United Kingdom |
Area:
Botany Biology, Evolution and Development BiologyWebsite:
http://brockingtonlab.co.uk/Google:
"Samuel Brockington"Parents
Sign in to add mentor| Douglas E. Soltis | grad student | 2009 | UF Gainesville | |
| (Evolution and development of petals in Aizoaceae (Caryophyllales).) | ||||
Children
Sign in to add trainee| Boas Pucker | grad student | Cambridge | |
| Hester Sheehan | post-doc | Cambridge | |
| Ross Mounce | post-doc | 2017 | Cambridge |
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Publications
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| Pucker B, Walker-Hale N, Dzurlic J, et al. (2023) Multiple mechanisms explain loss of anthocyanins from betalain-pigmented Caryophyllales, including repeated wholesale loss of a key anthocyanidin synthesis enzyme. The New Phytologist |
| Feng T, Pucker B, Kuang T, et al. (2023) The genome of the glasshouse plant noble rhubarb (Rheum nobile) provides a window into alpine adaptation. Communications Biology. 6: 706 |
| Pucker B, Brockington SF. (2022) The evidence for anthocyanins in the betalain-pigmented genus Hylocereus is weak. Bmc Genomics. 23: 739 |
| Pucker B, Singh HB, Kumari M, et al. (2021) The report of anthocyanins in the betalain-pigmented genus Hylocereus is not well evidenced and is not a strong basis to refute the mutual exclusion paradigm. Bmc Plant Biology. 21: 297 |
| Montero H, Lee T, Pucker B, et al. (2021) A mycorrhiza-associated receptor-like kinase with an ancient origin in the green lineage. Proceedings of the National Academy of Sciences of the United States of America. 118 |
| Xu B, Taylor L, Pucker B, et al. (2020) The land plant-specific MIXTA-MYB lineage is implicated in the early evolution of the plant cuticle and the colonization of land. The New Phytologist |
| Morales-Briones DF, Kadereit G, Tefarikis DT, et al. (2020) Disentangling Sources of Gene Tree Discordance in Phylogenomic Datasets: Testing Ancient Hybridizations in Amaranthaceae s.l. Systematic Biology |
| Airoldi CA, Hearn TJ, Brockington SF, et al. (2019) TTG1 proteins regulate circadian activity as well as epidermal cell fate and pigmentation. Nature Plants. 5: 1145-1153 |
| Sheehan H, Feng T, Walker-Hale N, et al. (2019) Evolution of L-DOPA 4,5-dioxygenase activity allows for recurrent specialisation to betalain pigmentation in Caryophyllales. The New Phytologist |
| Timoneda A, Feng T, Sheehan H, et al. (2019) The evolution of betalain biosynthesis in Caryophyllales. The New Phytologist |