Gregory A. Wray, Biology
Affiliations: | Duke University, Durham, NC |
Website:
http://www.biology.duke.edu/wraylab/Google:
"Gregory Wray"Cross-listing: Neurotree
Parents
Sign in to add mentorDavid R. McClay | grad student | 1987 | Duke |
Rudolf A. Raff | post-doc | 1987-1990 | Indiana University Bloomington |
Richard R. Strathmann | post-doc | 1990-1992 | Friday Harbor Labs, University of Washington (Biomechanics Tree) |
Children
Sign in to add traineeChris J. Lowe | grad student | Duke (Neurotree) | |
Alexandra E. Bely | grad student | 1999 | SUNY Stony Brook |
Margaret Pizer | grad student | 1997-2001 | SUNY Stony Brook, Duke (Marine Ecology Tree) |
Ehab Abouheif | grad student | 2002 | Duke |
Matthew V. Rockman | grad student | 2004 | Duke (FlyTree) |
James P. Balhoff | grad student | 1999-2005 | Duke |
Ann L. Rouse | grad student | 2007 | Duke (Neurotree) |
Jenny Tung | grad student | 2010 | Duke (Neurotree) |
Ken D. Yokoyama | grad student | 2010 | Duke (Neurotree) |
David A. Garfield | grad student | 2011 | Duke |
Daniel E. Runcie | grad student | 2012 | Duke (Neurotree) |
Jonathan L. Boyd | grad student | 2014 | Duke (Neurotree) |
Jennifer Wygoda Israel | grad student | 2010-2015 | Duke (Neurotree) |
Alejandro Berrio | post-doc | 2016- | Duke |
Lingyu Wang | post-doc | 2016-2017 | Duke (Neurotree) |
Joseph J Hanly | research scientist |
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Publications
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Loh LS, DeMarr KA, Tsimba M, et al. (2025) Lepidopteran scale cells derive from sensory organ precursors through a canonical lineage. Development (Cambridge, England). 152 |
Berrio A, Miranda E, Massri AJ, et al. (2024) Reprogramming of cells during embryonic transfating: overcoming a reprogramming block. Development (Cambridge, England) |
Massri AJ, Berrio A, Afanassiev A, et al. (2024) Single-cell transcriptomics reveals evolutionary reconfiguration of embryonic cell fate specification in the sea urchin Heliocidaris erythrogramma. Genome Biology and Evolution |
McDonald BD, Massri AJ, Berrio A, et al. (2024) Contrasting the development of larval and adult body plans during the evolution of biphasic lifecycles in sea urchins. Development (Cambridge, England). 151 |
Wilson K, Manner C, Miranda E, et al. (2024) An RNA interference approach for functional studies in the sea urchin and its use in analysis of Nodal signaling gradients. Developmental Biology |
Wilson K, Manner C, Miranda E, et al. (2024) An RNA interference approach for functional studies in the sea urchin and its use in analysis of Nodal signaling gradients. Biorxiv : the Preprint Server For Biology |
Massri AJ, Berrio A, Afanassiev A, et al. (2024) Single-cell transcriptomics reveals evolutionary reconfiguration of embryonic cell fate specification in the sea urchin . Biorxiv : the Preprint Server For Biology |
Devens HR, Davidson PL, Byrne M, et al. (2023) Hybrid Epigenomes Reveal Extensive Local Genetic Changes to Chromatin Accessibility Contribute to Divergence in Embryonic Gene Expression Between Species. Molecular Biology and Evolution. 40 |
Massri AJ, McDonald B, Wray GA, et al. (2023) Feedback circuits are numerous in embryonic gene regulatory networks and offer a stabilizing influence on evolution of those networks. Evodevo. 14: 10 |
Henry JJ, Wray GA, Raff RA. (2023) Mechanism of an Alternate Type of Echinoderm Blastula Formation: The Wrinkled Blastula of the Sea Urchin Heliocidaris erythrogramma: (direct development/echinoderm development/morphogenesis/sea urchin embryos/wrinkled blastula). Development, Growth & Differentiation. 33: 317-328 |