Miriam Gordillo Ph.D.
mig2021@med.cornell.edu
Instructor
GATA transcription factors regulate diverse aspects of the development of various organ systems derived from mesoderm and endoderm. In particular Gata4, Gata5 and Gata6 are each implicated in the development of the intestinal and cardiovascular systems. We use the murine embryonic stem cell model to understand how Gata 4, 5 and 6 contribute to multiple aspects of cardiovascular and gut development and to discover developmental programs regulated by individual and combinatorial sets of these factors.
mig2021@med.cornell.edu
Instructor
GATA transcription factors regulate diverse aspects of the development of various organ systems derived from mesoderm and endoderm. In particular Gata4, Gata5 and Gata6 are each implicated in the development of the intestinal and cardiovascular systems. We use the murine embryonic stem cell model to understand how Gata 4, 5 and 6 contribute to multiple aspects of cardiovascular and gut development and to discover developmental programs regulated by individual and combinatorial sets of these factors.
Education
|
PhD
MS |
Graduate School of Medicine, Osaka University
Universidad Nacional de Colombia |
Publications
Gordillo, M., Evans, T., and Gouon-Evans, V. (2015). Orchestrating Liver Development. Development. 142(12):2094-2108
Turbendian, H.K., Gordillo, M., Tsai, S.-Y., Lu, J., Kang, G., Liu, T.-C., Tang, A., Liu, S., Fishman, G.I., and Evans, T. (2013). GATA factors efficiently direct cardiac fate from ESCs. Development. 140: 1639-1644.
Turbendian, H.K., Gordillo, M., Tsai, S.-Y., Lu, J., Kang, G., Liu, T.-C., Tang, A., Liu, S., Fishman, G.I., and Evans, T. (2013). GATA factors efficiently direct cardiac fate from ESCs. Development. 140: 1639-1644.