| Distributed biological computation with multicellular engineered networks S Regot, J Macia, N Conde, K Furukawa, J Kjellén, T Peeters, S Hohmann, ... Nature 469 (7329), 207-211, 2011 | 402 | 2011 |
| Dynamic signaling in the Hog1 MAPK pathway relies on high basal signal transduction J Macia, S Regot, T Peeters, N Conde, R Solé, F Posas Science signaling 2 (63), ra13-ra13, 2009 | 164 | 2009 |
| Synthetic protocell biology: from reproduction to computation RV Solé, A Munteanu, C Rodriguez-Caso, J Macía Philosophical Transactions of the Royal Society B: Biological Sciences 362 …, 2007 | 164 | 2007 |
| Distributed computation: the new wave of synthetic biology devices J Macía, F Posas, RV Solé Trends in biotechnology 30 (6), 342-349, 2012 | 94 | 2012 |
| Dealing with the genetic load in bacterial synthetic biology circuits: convergences with the Ohm's law M Carbonell-Ballestero, E Garcia-Ramallo, R Montañez, ... Nucleic acids research 44 (1), 496-507, 2016 | 85 | 2016 |
| Implementation of complex biological logic circuits using spatially distributed multicellular consortia J Macia, R Manzoni, N Conde, A Urrios, E de Nadal, R Solé, F Posas PLoS computational biology 12 (2), e1004685, 2016 | 67 | 2016 |
| Why are cellular switches Boolean? General conditions for multistable genetic circuits J Macía, S Widder, R Solé Journal of theoretical biology 261 (1), 126-135, 2009 | 59 | 2009 |
| Distributed robustness in cellular networks: insights from synthetic evolved circuits J Macia, RV Solé Journal of The Royal Society Interface 6 (33), 393-400, 2009 | 58 | 2009 |
| A synthetic multicellular memory device A Urrios, J Macia, R Manzoni, N Conde, A Bonforti, E de Nadal, F Posas, ... ACS synthetic biology 5 (8), 862-873, 2016 | 57 | 2016 |
| Raman microstructural analysis of silicon-on-insulator formed by high dose oxygen ion implantation: As-implanted structures J Macia, E Martin, A Perez-Rodriguez, J Jimenez, JR Morante, B Aspar, ... Journal of applied physics 82, 3730, 1997 | 51 | 1997 |
| How to make a synthetic multicellular computer J Macia, S Ricard V | 43 | 2014 |
| Specialized or flexible feed-forward loop motifs: a question of topology J Macía, S Widder, R Solé BMC systems biology 3, 1-18, 2009 | 41 | 2009 |
| Expanding the landscape of biological computation with synthetic multicellular consortia RV Solé, J Macia Natural Computing 12, 485-497, 2013 | 36 | 2013 |
| Synthetic associative learning in engineered multicellular consortia J Macia, B Vidiella, RV Solé Journal of The Royal Society Interface 14 (129), 20170158, 2017 | 35 | 2017 |
| Synthetic Turing protocells: vesicle self-reproduction through symmetry-breaking instabilities J Macia, RV Solé Philosophical Transactions of the Royal Society B: Biological Sciences 362 …, 2007 | 33 | 2007 |
| Protocell self-reproduction in a spatially extended metabolism–vesicle system J Macía, RV Solé Journal of theoretical biology 245 (3), 400-410, 2007 | 29 | 2007 |
| The causes of epistasis in genetic networks J Macía, RV Solé, SF Elena Evolution 66 (2), 586-596, 2012 | 28 | 2012 |
| Monomeric bistability and the role of autoloops in gene regulation S Widder, J Macía, R Solé PLoS One 4 (4), e5399, 2009 | 27 | 2009 |
| A bottom-up characterization of transfer functions for synthetic biology designs: lessons from enzymology M Carbonell-Ballestero, S Duran-Nebreda, R Montanez, R Solé, J Macía, ... Nucleic acids research 42 (22), 14060-14069, 2014 | 24 | 2014 |
| Evolvability of feed-forward loop architecture biases its abundance in transcription networks S Widder, R Solé, J Macía BMC systems biology 6, 1-9, 2012 | 22 | 2012 |
Ricard SoléICREA Research Professor/Universitat Pompeu Fabra and External Professor, Santa Fe InstituteDirección de correo verificada de upf.edu
