Arkhat Rakhatovich Abzhanov
Affiliations: | Imperial College London, London, England, United Kingdom | ||
| 2000 | Indiana University, Bloomington, Bloomington, IN, United States |
Area:
Vertebrate craniofacial developmentWebsite:
https://www.imperial.ac.uk/people/a.abzhanovGoogle:
"Arkhat Abzhanov"Parents
Sign in to add mentor| Thomas C. Kaufman | grad student | 2000 | Indiana University | |
| (Analysis of the sequence and expression patterns of homeotic and other developmental genes in Chelicerata, Crustacea, and Insecta: Implications for their roles in large-scale morphological evolution of arthropods.) | ||||
| Clifford J. Tabin | post-doc | (DevTree) | ||
Children
Sign in to add trainee| Bhart-Anjan Singh Bhullar | grad student | (Evolution Tree) | |
| Bumjin Namkoong | grad student | ||
| Ricardo Mallrino | grad student | 2011 | Harvard |
| Jasmin Camacho | grad student | 2020 | Imperial College London (Neurotree) |
| Zachary S Morris | grad student | 2014-2020 | Harvard (Evolution Tree) |
| Thomas J. Sanger | post-doc | (Evolution Tree) |
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Publications
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| Dobreva MP, Camacho J, Abzhanov A. (2021) Time to synchronize our clocks: Connecting developmental mechanisms and evolutionary consequences of heterochrony. Journal of Experimental Zoology. Part B, Molecular and Developmental Evolution |
| Reaney AM, Bouchenak-Khelladi Y, Tobias JA, et al. (2020) Ecological and morphological determinants of evolutionary diversification in Darwin's finches and their relatives. Ecology and Evolution. 10: 14020-14032 |
| Camacho J, Heyde A, Bhullar BS, et al. (2019) Peramorphosis, an evolutionary developmental mechanism in neotropical bat skull diversity. Developmental Dynamics : An Official Publication of the American Association of Anatomists |
| Morris ZS, Vliet KA, Abzhanov A, et al. (2019) Heterochronic shifts and conserved embryonic shape underlie crocodylian craniofacial disparity and convergence. Proceedings. Biological Sciences. 286: 20182389 |
| Fabbri M, Mongiardino Koch N, Pritchard AC, et al. (2017) The skull roof tracks the brain during the evolution and development of reptiles including birds. Nature Ecology & Evolution. 1: 1543-1550 |
| Tokita M, Yano W, James HF, et al. (2017) Cranial shape evolution in adaptive radiations of birds: comparative morphometrics of Darwin's finches and Hawaiian honeycreepers. Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences. 372 |
| Namkoong B, Güven S, Ramesan S, et al. (2015) Recapitulating cranial osteogenesis with neural crest cells in 3-D microenvironments. Acta Biomaterialia |
| Bhullar BS, Morris ZS, Sefton EM, et al. (2015) A molecular mechanism for the origin of a key evolutionary innovation, the bird beak and palate, revealed by an integrative approach to major transitions in vertebrate history. Evolution; International Journal of Organic Evolution |
| Sanger TJ, Seav SM, Tokita M, et al. (2014) The oestrogen pathway underlies the evolution of exaggerated male cranial shapes in Anolis lizards. Proceedings. Biological Sciences / the Royal Society. 281: 20140329 |
| Fritz JA, Brancale J, Tokita M, et al. (2014) Shared developmental programme strongly constrains beak shape diversity in songbirds. Nature Communications. 5: 3700 |