Ron Weiss
Affiliations: | Biological Engineering | Massachusetts Institute of Technology, Cambridge, MA, United States |
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"Ron Weiss"Children
Sign in to add traineeYoram Gerchman | post-doc | Princeton | |
Nika Shakiba | post-doc | 2018-2020 | MIT |
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Publications
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Ilia K, Shakiba N, Bingham T, et al. (2023) Synthetic genetic circuits to uncover the OCT4 trajectories of successful reprogramming of human fibroblasts. Science Advances. 9: eadg8495 |
Wauford N, Patel A, Tordoff J, et al. (2023) Synthetic symmetry breaking and programmable multicellular structure formation. Cell Systems |
Jones RD, Qian Y, Ilia K, et al. (2023) Author Correction: Robust and tunable signal processing in mammalian cells via engineered covalent modification cycles. Nature Communications. 14: 4775 |
Wauford N, Jones R, Van De Mark C, et al. (2023) Rapid Development of Cell State Identification Circuits with Poly-Transfection. Journal of Visualized Experiments : Jove |
Ilia K, Shakiba N, Bingham T, et al. (2023) Synthetic genetic circuits to uncover and enforce the OCT4 trajectories of successful reprogramming of human fibroblasts. Biorxiv : the Preprint Server For Biology |
Cabera A, Edelstein HI, Glykofrydis F, et al. (2022) The sound of silence: Transgene silencing in mammalian cell engineering. Cell Systems. 13: 950-973 |
Chen WCW, Gaidukov L, Lai Y, et al. (2022) A synthetic transcription platform for programmable gene expression in mammalian cells. Nature Communications. 13: 6167 |
Jones RD, Qian Y, Ilia K, et al. (2022) Robust and tunable signal processing in mammalian cells via engineered covalent modification cycles. Nature Communications. 13: 1720 |
Aydin O, Passaro AP, Raman R, et al. (2022) Principles for the design of multicellular engineered living systems. Apl Bioengineering. 6: 010903 |
Kiwimagi KA, Letendre JH, Weinberg BH, et al. (2021) Quantitative characterization of recombinase-based digitizer circuits enables predictable amplification of biological signals. Communications Biology. 4: 875 |