J. Labelle, A. Ramos-Martinez, K. Shen, L. Motta-Mena, K. Gardner, S.C. Materna, S. Woo, TAEL 2.0: An improved optogenetic gene expression system for zebrafish. Accepted at Zebrafish.
S.C. Materna, T. Sinha, R.M. Barnes, K.L. van Bueren, B.L. Black (2019), Cardiovascular development and survival require Mef2c function in the myocardial but not the endothelial lineage. Developmental Biology, 445:170-177.
S.C. Materna++ and S. Woo (2018): Genetic Networks. Encyclopedia of Life Sciences, Wiley Online Library.
S.C Materna++(2017), Using Morpholinos to probe gene networks in sea urchins. In: Morpholino Oligomers: Methods and Protocols (Springer, New York).
R. Marín-Juez, M. Marass, S. Gauvrit, A. Rossi, S. Lai, S.C. Materna, B.L. Black, and D.Y.R. Stainier (2016). Fast vascular scaffolding of the injured area is essential to support zebrafish heart regeneration. Proceedings of the National Academy of Sciences, 113:11237-11242 .
A.S. Robinson*, S.C. Materna*, R.M. Barnes, S. De Val, S.M. Xu, and B.L. Black (2014). An arterial-specific enhancer of the human endothelial converting enzyme 1 (ECE1) gene is synergistically activated by Sox17, FoxC2, and Etv2. Developmental Biology, 395:379-389.