Chao Tang, Ph.D.
Affiliations: | School of Physics | Peking University, Beijing, Beijing Shi, China |
Area:
Systems BiologyGoogle:
"Chao Tang"Mean distance: 12.59 | S | N | B | C | P |
Children
Sign in to add traineeYuan Yuan | grad student | Peking University (Chemistry Tree) | |
Simone Bianco | post-doc | UCSF (MathTree) |
Collaborators
Sign in to add collaboratorWendell A. Lim | collaborator | UCSF (Cell Biology Tree) | |
Ned S. Wingreen | collaborator | Princeton | |
Robert C Helling | collaborator | 1994-1995 | NECI |
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Publications
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Zhang ZB, Wang QY, Ke YX, et al. (2017) Design of Tunable Oscillatory Dynamics in a Synthetic NF-κB Signaling Circuit. Cell Systems |
Ping X, Tang C. (2015) An Atlas of Network Topologies Reveals Design Principles for Caenorhabditis elegans Vulval Precursor Cell Fate Patterning. Plos One. 10: e0131397 |
Stern A, Bianco S, Yeh MT, et al. (2014) Costs and benefits of mutational robustness in RNA viruses. Cell Reports. 8: 1026-36 |
Lee CM, Gong S, Tang C, et al. (2013) Bridging cross-cultural gaps in scientific exchange through innovative team challenge workshops. Quantitative Biology. 1: 3-8 |
Li Z, Bianco S, Zhang Z, et al. (2013) Generic Properties of Random Gene Regulatory Networks. Quantitative Biology. 1: 253-260 |
Yang X, Jost AP, Weiner OD, et al. (2013) A light-inducible organelle-targeting system for dynamically activating and inactivating signaling in budding yeast. Molecular Biology of the Cell. 24: 2419-30 |
Lim WA, Lee CM, Tang C. (2013) Design principles of regulatory networks: searching for the molecular algorithms of the cell. Molecular Cell. 49: 202-12 |
Chau AH, Walter JM, Gerardin J, et al. (2012) Designing synthetic regulatory networks capable of self-organizing cell polarization. Cell. 151: 320-32 |
Ma W, Trusina A, El-Samad H, et al. (2009) Defining network topologies that can achieve biochemical adaptation. Cell. 138: 760-73 |
Trusina A, Papa FR, Tang C. (2008) Rationalizing translation attenuation in the network architecture of the unfolded protein response. Proceedings of the National Academy of Sciences of the United States of America. 105: 20280-5 |