Reprogramming to the Nervous System: a computational and candidate gene approach. Dissertation, Michigan State University, ProQuest. Open Access version
OSF Commons Project Site
Papers:
Alicea, B. Cellular decision-making bias: the missing ingredient in cell functional diversity. arXiv, 1310:8268 [q-bio.QM] (2013).
Alicea, B., Murthy, S., Keaton, S.A., Cobbett, P., Cibelli, J.B., and Suhr, S.T. Defining phenotypic respecification diversity using multiple cell lines and reprogramming regimens. Stem Cells and Development, 22(19), 2641-2654 (2013).
Alicea, B. Collective properties of cellular identity: a computational approach. arXiv, 1302:0826. [q-bio.GN, q-bio.QM] (2013).
Book Chapters:
Alicea, B. and Cibelli, J.B. (2013). Comparing indirect-derived ES cells and directly-derived iPS cells. In “Principles of Cloning”. Elsevier, Amsterdam.
Posters:
Alicea, B. Dynamical Cellular Encodings for Exploring Cellular Reprogramming. Dynamics Days 2012. Baltimore, MD. Poster (2012).
Alicea, B. Dynamical approximation of a reprogramming cell culture. Dynamic Days 2010. Evanston, IL. Poster (2010).
Papers:
Alicea, B. Cellular decision-making bias: the missing ingredient in cell functional diversity. arXiv, 1310:8268 [q-bio.QM] (2013).
Alicea, B., Murthy, S., Keaton, S.A., Cobbett, P., Cibelli, J.B., and Suhr, S.T. Defining phenotypic respecification diversity using multiple cell lines and reprogramming regimens. Stem Cells and Development, 22(19), 2641-2654 (2013).
Alicea, B. Collective properties of cellular identity: a computational approach. arXiv, 1302:0826. [q-bio.GN, q-bio.QM] (2013).
Book Chapters:
Alicea, B. and Cibelli, J.B. (2013). Comparing indirect-derived ES cells and directly-derived iPS cells. In “Principles of Cloning”. Elsevier, Amsterdam.
Posters:
Alicea, B. Dynamical Cellular Encodings for Exploring Cellular Reprogramming. Dynamics Days 2012. Baltimore, MD. Poster (2012).
Alicea, B. Dynamical approximation of a reprogramming cell culture. Dynamic Days 2010. Evanston, IL. Poster (2010).
