| Role of YAP/TAZ in mechanotransduction S Dupont, L Morsut, M Aragona, E Enzo, S Giulitti, M Cordenonsi, ... Nature 474 (7350), 179-183, 2011 | 5384 | 2011 |
| CRISPR-mediated modular RNA-guided regulation of transcription in eukaryotes LA Gilbert, MH Larson, L Morsut, Z Liu, GA Brar, SE Torres, ... Cell 154 (2), 442-451, 2013 | 4249 | 2013 |
| Precision tumor recognition by T cells with combinatorial antigen-sensing circuits KT Roybal, LJ Rupp, L Morsut, WJ Walker, KA McNally, JS Park, WA Lim Cell 164 (4), 770-779, 2016 | 956 | 2016 |
| Engineering customized cell sensing and response behaviors using synthetic notch receptors L Morsut, KT Roybal, X Xiong, RM Gordley, SM Coyle, M Thomson, ... Cell 164 (4), 780-791, 2016 | 879 | 2016 |
| Engineering T cells with customized therapeutic response programs using synthetic notch receptors KT Roybal, JZ Williams, L Morsut, LJ Rupp, I Kolinko, JH Choe, ... Cell 167 (2), 419-432. e16, 2016 | 618 | 2016 |
| FAM/USP9x, a deubiquitinating enzyme essential for TGFβ signaling, controls Smad4 monoubiquitination S Dupont, A Mamidi, M Cordenonsi, M Montagner, L Zacchigna, ... Cell 136 (1), 123-135, 2009 | 597 | 2009 |
| Programming self-organizing multicellular structures with synthetic cell-cell signaling S Toda, LR Blauch, SKY Tang, L Morsut, WA Lim Science 361 (6398), 156-162, 2018 | 416 | 2018 |
| MicroRNA control of Nodal signalling G Martello, L Zacchigna, M Inui, M Montagner, M Adorno, A Mamidi, ... Nature 449 (7159), 183-188, 2007 | 258 | 2007 |
| USP15 is a deubiquitylating enzyme for receptor-activated SMADs M Inui, A Manfrin, A Mamidi, G Martello, L Morsut, S Soligo, E Enzo, ... Nature cell biology 13 (11), 1368-1375, 2011 | 229 | 2011 |
| Negative control of Smad activity by ectodermin/Tif1γ patterns the mammalian embryo L Morsut, KP Yan, E Enzo, M Aragona, SM Soligo, O Wendling, M Mark, ... Development 137 (15), 2571-2578, 2010 | 98 | 2010 |
| The living interface between synthetic biology and biomaterial design AP Liu, EA Appel, PD Ashby, BM Baker, E Franco, L Gu, K Haynes, ... Nature materials 21 (4), 390-397, 2022 | 90 | 2022 |
| Engineering multicellular systems: using synthetic biology to control tissue self-organization MB Johnson, AR March, L Morsut Current opinion in biomedical engineering 4, 163-173, 2017 | 63 | 2017 |
| The evolution of synthetic receptor systems J Manhas, HI Edelstein, JN Leonard, L Morsut Nature chemical biology 18 (3), 244-255, 2022 | 62 | 2022 |
| Synthetic development: building mammalian multicellular structures with artificial genetic programs M Santorelli, C Lam, L Morsut Current opinion in biotechnology 59, 130-140, 2019 | 51 | 2019 |
| The sound of silence: Transgene silencing in mammalian cell engineering A Cabrera, HI Edelstein, F Glykofrydis, KS Love, S Palacios, J Tycko, ... Cell Systems 13 (12), 950-973, 2022 | 49 | 2022 |
| Binding-triggered transcriptional switches and methods of use thereof WA Lim, L Morsut, KT Roybal US Patent 9,670,281, 2017 | 47 | 2017 |
| Novel synthetic biology approaches for developmental systems C Ho, L Morsut Stem Cell Reports 16 (5), 1051-1064, 2021 | 29 | 2021 |
| Microvascular patterns in human medullary tegmentum at the level of the area postrema A Porzionato, V Macchi, L Morsut, A Parenti, R De Caro Journal of anatomy 206 (4), 405-410, 2005 | 29 | 2005 |
| Synthetic biology and tissue engineering: toward fabrication of complex and smart cellular constructs T Hoffman, P Antovski, P Tebon, C Xu, N Ashammakhi, S Ahadian, ... Advanced Functional Materials 30 (26), 1909882, 2020 | 25 | 2020 |
| Binding-triggered transcriptional switches and methods of use thereof WA Lim, L Morsut, KT Roybal, JT Farlow, T Satoshi US Patent 10,590,182, 2020 | 16 | 2020 |
