Sinngleton KS, Silva-Rodriguez P, Cunningham DD, Silva EM. Xenopus Sox11 Partner Proteins and Functional Domains in Neurogenesis. 2024. Genes 15(2):243. https://doi.org/10.3390/genes15020243
Chao Chen*, Jing Jin*, Garrett A. Lee, Elena Silva**, Maria Donoghue**. Cross-species functional analyses reveal shared and separate roles for Sox11 in frog primary neurogenesis and mouse cortical neuronal differentiation. 2016. Biology Open. doi: 10. 1242/ bio. 015404 * or ** contributed equally
Banu Saritas-Yildirim, Christopher P Childers, Christine G Elsik, Elena M Silva. Identification of REST targets in the Xenopus tropicalis genome. 2015 BMC Genomics. 16:380
Whittington N, Cunningham D, Le TK, De Maria D, Silva EM. Sox21 regulates the progression of neuronal differentiation in a dose dependent manner. 2015. Developmental Biology. Jan 15;397(2):237-47.
Saritas-Yildirim B and E. Silva. The role of targeted protein degradation in early neural development. 2014. Genesis. Apr;52(4):287-99.
Cunningham DD and ES Casey. Spatiotemporal development of the embryonic nervous system of Saccoglossus kowalevskii. 2014. Developmental Biology. Feb. 1; 386 (1):252-263.
Rogers CD, Ferzli GS, Casey ES. The response of early neural genes to FGF signaling or inhibition of BMP indicate the absence of a conserved neural induction module. 2011. BMC Developmental Biology. Dec 15;11:74.
Archer TC, Jin J, Casey ES. Interaction of Sox1, Sox2, Sox3 and Oct4 during primary neurogenesis. 2011. Developmental Biology. Feb 15;350(2):429-40.
Elkouby YM, Elias S, Casey ES, Blythe SA, Tsabar N, Klein PS, Root H, Liu KJ, Frank D. Mesodermal Wnt signaling organizes the neural plate via Meis3. 2010. Development. May;137(9):1531-41.
Rogers, C, Moody, S and ES Casey. Neural induction and factors that stabilize a neural fate. Review. 2009. Embryo Today (Part C of Birth Defects Research). 87(3):249-262.
Rogers CD, Harafuji N, Archer T, Cunningham DD, Casey ES. Xenopus Sox3 activates sox2 and geminin and indirectly represses Xvent2 expression to induce neural progenitor formation at the expense of non-neural ectodermal derivatives. 2009. Mechanisms of Development. Jan-Feb;126(1-2):42-55.
Blackiston D, Silva Casey E, and M Weiss. Retention of Memory through Metamorphosis: Can a Moth Remember what it Learned as a Caterpillar? 2008. PLoS ONE. 3 (3), e1736. Read Blog on article. Discovery, Live Science
Cunningham DD, Meng J, Fritszch B, and EM Silva Casey. Cloning and developmental expression of the soxB2 genes, sox14 and sox21, during Xenopus laevis embryogenesis. 2008. Int. J. Dev. Biol. 52: 999-1004 . [pdf]
Rogers C* , Archer T* , Cunningham DD, Grammer TC and EM Silva Casey. Sox2 and Sox3 expression during Xenopus neurogenesis are controlled by distinct regulatory mechanisms. 2008. Developmental Biology. Volume 313, Issue 1, Pages 307-319. * These authors contributed equally
Brunelli, S., Casey, E.S., Bell, D., Harland, R., and R. Lovell-Badge. Expression of SOX3 throughout the developing central nervous system is dependent on the combined action of discrete, evolutionarily conserved regulatory elements. 2003. Genesis. 36: 12-24.
Di Gregorio, A., Harland R., Levine, M. and E.S. Casey. Tail morphogenesis in the ascidian Ciona intestinalis requires cooperationbetween notochord and muscle. 2002. Developmental Biology. Volume 244, Issue 2, Pages 385-395. [pdf]
Conlon, F., Fairclough, L., Price, B., Casey E.S. and J.C. Smith. Determination of T-Box protein specificity. 2001. Development. 128:3749-3758.
Rodriguez, T., Casey, E.S., Harland, R.M., Smith, J.C., and R. Beddington. Distant Enhancer elements control Hex expression during gastrulation and organogenesis. 2001. Developmental Biology. 234: 304-316.
Casey, E.S., Fairclough, L., Tada, M.,Wylie, C., Heasman, J., and J.C. Smith. Bix4 is activated directly by VegT and mediates endoderm formation in Xenopus development. 1999. Development. 126: 4193-4200.
Casey E.S., Reilly, M., Conlon, F., and J.C. Smith. The T-Box transcription factor Brachyury activates expression of eFGF by binding to a non-palindromic response element. 1998. Development. 125: 3887-3894.
Tada, M., Casey, E.S., Fairclough, L., and J.C. Smith. Bix1, a direct target of Xenopus T-box genes, causes formation of ventral mesoderm and endoderm. 1998. Development. 125: 3997-4006.
Chao Chen*, Jing Jin*, Garrett A. Lee, Elena Silva**, Maria Donoghue**. Cross-species functional analyses reveal shared and separate roles for Sox11 in frog primary neurogenesis and mouse cortical neuronal differentiation. 2016. Biology Open. doi: 10. 1242/ bio. 015404 * or ** contributed equally
Banu Saritas-Yildirim, Christopher P Childers, Christine G Elsik, Elena M Silva. Identification of REST targets in the Xenopus tropicalis genome. 2015 BMC Genomics. 16:380
Whittington N, Cunningham D, Le TK, De Maria D, Silva EM. Sox21 regulates the progression of neuronal differentiation in a dose dependent manner. 2015. Developmental Biology. Jan 15;397(2):237-47.
Saritas-Yildirim B and E. Silva. The role of targeted protein degradation in early neural development. 2014. Genesis. Apr;52(4):287-99.
Cunningham DD and ES Casey. Spatiotemporal development of the embryonic nervous system of Saccoglossus kowalevskii. 2014. Developmental Biology. Feb. 1; 386 (1):252-263.
Rogers CD, Ferzli GS, Casey ES. The response of early neural genes to FGF signaling or inhibition of BMP indicate the absence of a conserved neural induction module. 2011. BMC Developmental Biology. Dec 15;11:74.
Archer TC, Jin J, Casey ES. Interaction of Sox1, Sox2, Sox3 and Oct4 during primary neurogenesis. 2011. Developmental Biology. Feb 15;350(2):429-40.
Elkouby YM, Elias S, Casey ES, Blythe SA, Tsabar N, Klein PS, Root H, Liu KJ, Frank D. Mesodermal Wnt signaling organizes the neural plate via Meis3. 2010. Development. May;137(9):1531-41.
Rogers, C, Moody, S and ES Casey. Neural induction and factors that stabilize a neural fate. Review. 2009. Embryo Today (Part C of Birth Defects Research). 87(3):249-262.
Rogers CD, Harafuji N, Archer T, Cunningham DD, Casey ES. Xenopus Sox3 activates sox2 and geminin and indirectly represses Xvent2 expression to induce neural progenitor formation at the expense of non-neural ectodermal derivatives. 2009. Mechanisms of Development. Jan-Feb;126(1-2):42-55.
Blackiston D, Silva Casey E, and M Weiss. Retention of Memory through Metamorphosis: Can a Moth Remember what it Learned as a Caterpillar? 2008. PLoS ONE. 3 (3), e1736. Read Blog on article. Discovery, Live Science
Cunningham DD, Meng J, Fritszch B, and EM Silva Casey. Cloning and developmental expression of the soxB2 genes, sox14 and sox21, during Xenopus laevis embryogenesis. 2008. Int. J. Dev. Biol. 52: 999-1004 . [pdf]
Rogers C* , Archer T* , Cunningham DD, Grammer TC and EM Silva Casey. Sox2 and Sox3 expression during Xenopus neurogenesis are controlled by distinct regulatory mechanisms. 2008. Developmental Biology. Volume 313, Issue 1, Pages 307-319. * These authors contributed equally
Brunelli, S., Casey, E.S., Bell, D., Harland, R., and R. Lovell-Badge. Expression of SOX3 throughout the developing central nervous system is dependent on the combined action of discrete, evolutionarily conserved regulatory elements. 2003. Genesis. 36: 12-24.
Di Gregorio, A., Harland R., Levine, M. and E.S. Casey. Tail morphogenesis in the ascidian Ciona intestinalis requires cooperationbetween notochord and muscle. 2002. Developmental Biology. Volume 244, Issue 2, Pages 385-395. [pdf]
Conlon, F., Fairclough, L., Price, B., Casey E.S. and J.C. Smith. Determination of T-Box protein specificity. 2001. Development. 128:3749-3758.
Rodriguez, T., Casey, E.S., Harland, R.M., Smith, J.C., and R. Beddington. Distant Enhancer elements control Hex expression during gastrulation and organogenesis. 2001. Developmental Biology. 234: 304-316.
Casey, E.S., Fairclough, L., Tada, M.,Wylie, C., Heasman, J., and J.C. Smith. Bix4 is activated directly by VegT and mediates endoderm formation in Xenopus development. 1999. Development. 126: 4193-4200.
Casey E.S., Reilly, M., Conlon, F., and J.C. Smith. The T-Box transcription factor Brachyury activates expression of eFGF by binding to a non-palindromic response element. 1998. Development. 125: 3887-3894.
Tada, M., Casey, E.S., Fairclough, L., and J.C. Smith. Bix1, a direct target of Xenopus T-box genes, causes formation of ventral mesoderm and endoderm. 1998. Development. 125: 3997-4006.