Miss Jessica De Angelis
Higher degree by research (PhD) student
Institute for Molecular Bioscience
334 62348
Journal Articles
Koopman, Charlotte D., De Angelis, Jessica, Iyer, Swati P., Verkerk, Arie O., Da Silva, Jason, Berecki, Geza, Jeanes, Angela, Baillie, Gregory J., Paterson, Scott, Uribe, Veronica, Ehrlich, Ophelia V., Robinson, Samuel D., Garric, Laurence, Petrou, Steven, Simons, Cas, Vetter, Irina, Hogan, Benjamin M., de Boer, Teun P., Bakkers, Jeroen and Smith, Kelly A. (2021). The zebrafish mutant uncovers an evolutionarily conserved role for Tmem161b in the control of cardiac rhythm. Proceedings of the National Academy of Sciences of the United States of America, 118 (9) e2018220118, e2018220118. doi: 10.1073/pnas.2018220118
Grassini, Daniela R., Lagendijk, Anne K., De Angelis, Jessica E., Da Silva, Jason, Jeanes, Angela, Zettler, Nicole, Bower, Neil I., Hogan, Benjamin M. and Smith, Kelly A. (2018). Nppa and Nppb act redundantly during zebrafish cardiac development to confine AVC marker expression and reduce cardiac jelly volume. Development, 145 (12) dev160739, dev160739. doi: 10.1242/dev.160739
De Angelis, Jessica E., Lagendijk, Anne K., Chen, Huijun, Tromp, Alisha, Bower, Neil I., Tunny, Kathryn A., Brooks, Andrew J., Bakkers, Jeroen, Francois, Mathias, Yap, Alpha S., Simons, Cas, Wicking, Carol, Hogan, Benjamin M. and Smith, Kelly A. (2017). Correction to: Tmem2 regulates embryonic Vegf signaling by controlling hyaluronic acid turnover (Developmental Cell 40, 2017, 123-136). Developmental Cell, 40 (4), 421-421. doi: 10.1016/j.devcel.2017.02.005
De Angelis, Jessica E., Lagendijk, Anne K., Chen, Huijun, Tromp, Alisha, Bower, Neil I., Tunny, Kathryn A., Brooks, Andrew J., Bakkers, Jeroen, Francois, Mathias, Yap, Alpha S., Simons, Cas, Wicking, Carol, Hogan, Benjamin M. and Smith, Kelly A. (2017). Tmem2 regulates embryonic Vegf signaling by controlling hyaluronic acid turnover. Developmental Cell, 40 (2), 123-136. doi: 10.1016/j.devcel.2016.12.017
Thesis
De Angelis, Jessica (2018). Characterisation of novel regulators of cardiovascular development in zebrafish. PhD Thesis, Institute of Molecular Bioscience, The University of Queensland. doi: 10.14264/uql.2018.833