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Mr Clayton Friedman

Research higher degree (PhD) student
Institute for Molecular Bioscience
334 62347

Publications

Journal Articles (3)
Conference Paper (1)
Thesis (1)

Journal Articles

Friedman, Clayton E., Nguyen, Quan, Lukowski, Samuel W., Helfer, Abbigail, Chiu, Han Sheng, Miklas, Jason, Levy, Shiri, Suo, Shengbao, Han, Jing-Dong Jackie, Osteil, Pierre, Peng, Guangdun, Jing, Naihe, Baillie, Greg J., Senabouth, Anne, Christ, Angelika N., Bruxner, Timothy J., Murry, Charles E., Wong, Emily S., Ding, Jun, Wang, Yuliang, Hudson, James, Ruohola-Baker, Hannele, Bar-Joseph, Ziv, Tam, Patrick P.L., Powell, Joseph E. and Palpant, Nathan J. (2018). Single-cell transcriptomic analysis of cardiac differentiation from human PSCs reveals HOPX-dependent cardiomyocyte maturation. Cell Stem Cell, 23 (4), 586-598. doi: 10.1016/j.stem.2018.09.009
Alexanian, Michael, Maric, Daniel, Jenkinson, Stephen P., Mina, Marco, Friedman, Clayton E., Ting, Ching-Chia, Micheletti, Rudi, Plaisance, Isabelle, Nemir, Mohamed, Maison, Damien, Kernen, Jasmin, Pezzuto, Iole, Villeneuve, Dominic, Burdet, Frederic, Ibberson, Mark, Leib, Stephen L., Palpant, Nathan J., Hernandez, Nouria, Ounzain, Samir and Pedrazzini, Thierry (2017). A transcribed enhancer dictates mesendoderm specification in pluripotency. Nature Communications, 8 (1) 1806, 1-19. doi: 10.1038/s41467-017-01804-w
Palpant, Nathan J., Pabon, Lil, Friedman, Clayton E., Roberts, Meredith, Hadland, Brandon, Zaunbrecher, Rebecca J., Bernstein, Irwin, Zheng, Ying and Murry, Charles E. (2017). Generating high-purity cardiac and endothelial derivatives from patterned mesoderm using human pluripotent stem cells. Nature Protocols, 12 (1), 15-31. doi: 10.1038/nprot.2016.153

Conference Paper

Nguyen, Quan H., Lukowski, Samuel W., Chiu, Han S., Friedman, Clayton E., Senabouth, Anne, Crowhurst, Liam, Bruxner, Timothy J. C., Christ, Angelika N., Hudson, James, Ding, Jun, Bar-Joseph, Ziv, Tam, Patrick P. L., Palpant, Nathan J. and Powell, Joseph E. (2018). Genetic networks modulating cell fate specification and contributing to cardiac disease risk in hiPSC-derived cardiomyocytes at single cell resolution. Human Genome Meeting 2018, Yokohama, Japan, 12-15 March 2018. London, United Kingdom: Henry Stewart Publications LLP. doi: 10.1186/s40246-018-0138-6

Thesis

Friedman, Clayton (2020). Genetic regulation of cardiac differentiation at single-cell resolution. PhD Thesis, Institute for Molecular Bioscience, The University of Queensland. doi: 10.14264/08c0913