André Estevez-Torres
Directeur de recherche CNRS
ORCID
0000-0002-5040-1369
Bureau (pièce 508)
01 44 27 77 72
Cette personne n'est plus en activité au laboratoire.
Thématiques de recherche
EvoMorph - Evolution & Morphogenèse dans les systèmes moléculairesPrésentation
Vous trouverez mon CV ici: CV
Et la liste complète de mes publications ici: publications
Le site de notre équipe de recherche: http://ljpmorpho.free.fr/index.php
Le site de nos recherches au sein du Laboratoire Jean Perrin: http://www.labos.upmc.fr/ljp/?article13&lang=fr
Notre youtube channel
Publications
2022
⊞ | Crosslinking and depletion determine spatial instabilities in cytoskeletal active matter - Soft Matter (May. 2022) |
⊞ | Long-Lasting and Responsive DNA/Enzyme-Based Programs in Serum-Supplemented Extracellular Media - ACS Synthetic Biology (Feb. 2022) |
⊞ | Front speed and pattern selection of a propagating chemical front in an active fluid - Physical Review E (Jan. 2022) |
2021
⊞ | Programmed mechano-chemical coupling in reaction-diffusion active matter - Science Advances (Dec. 2021) |
⊞ | DNA-Controlled Spatiotemporal Patterning of a Cytoskeletal Active Gel - JACS (Nov. 2021) |
⊞ | Learning from Embryo Development to Engineer Self-organizing Materials - Out-of-Equilibrium (Supra)molecular Systems and Materials (Apr. 2021) |
URL | Full text PDF | Bibtex | doi: |
⊞ | Programming Spatio-temporal Patterns with DNA-based Circuits - Wiley (publisher) DNA- and RNA-Based Computing Systems (Jan. 2021) |
URL | Full text PDF | Bibtex | doi: |
2020
⊞ | Spatiotemporal Patterning of Living Cells with Extracellular DNA Programs - ACS Nano (Dec. 2020) |
2019
⊞ | DNA-based long-lived reaction-diffusion patterning in a host hydrogel - Soft Matter (Oct. 2019) |
⊞ | Tunable corrugated patterns in an active nematic sheet - PNAS (Oct. 2019) |
⊞ | rEXPAR: An Isothermal Amplification Scheme That Is Robust to Autocatalytic Parasites - Biochemistry (Jun. 2019) |
2018
⊞ | Quantitative Characterization of Translational Riboregulators Using an in Vitro Transcription-Translation System - ACS Synth. Biol. (Apr. 2018) |
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Bibtex | doi:10.1021/acssynbio.7b00387 |
2017
⊞ | Microscopic agents programmed by DNA circuits - Nature Nano (Jan. 2017) |
2016
⊞ | Observing and Controlling the Folding Pathway of DNA Origami at the Nanoscale - ACS Nano (Jan. 2016) |
2015
⊞ | BIOPHYSICS The expressionist movement - Nat. Phys. (Dec. 2015) |
⊞ | Automated Design of Programmable Enzyme-Driven DNA Circuits - ACS Synth. Biol. (Jun. 2015) |
⊞ | Pursuit-and-Evasion Reaction-Diffusion Waves in Microreactors with Tailored Geometry - J. Phys. Chem. B (Apr. 2015) |
⊞ | Synthesis of Programmable Reaction-Diffusion Fronts Using DNA Catalyzers - Phys. Rev. Lett. (Feb. 2015) |
2013
⊞ | Spatial Waves in Synthetic Biochemical Networks - J. Am. Chem. Soc. (Oct. 2013) |
⊞ | Pressure-Assisted Selective Preconcentration in a Straight Nanochannel - Anal. Chem. (Aug. 2013) |
⊞ | High-throughput and long-term observation of compartmentalized biochemical oscillators - Chem. Commun. (Jan. 2013) |
⊞ | A nanoliter-scale open chemical reactor - Lab Chip (Jan. 2013) |
2011
⊞ | DNA compaction: fundamentals and applications - Soft Matter (Jan. 2011) |
2009
⊞ | Sequence-independent and reversible photocontrol of transcription/expression systems using a photosensitive nucleic acid binder - Proc. Natl. Acad. Sci. U. S. A. (Jul. 2009) |
2008
⊞ | Photocontrol of single-chain DNA conformation in cell-mimicking microcompartments - ChemBioChem (May. 2008) |
⊞ | Fourier transform to analyse reaction-diffusion dynamics in a microsystem - Lab Chip (Jan. 2008) |
2007
⊞ | Fourier analysis to measure diffusion coefficients and resolve mixtures on a continuous electrophoresis chip - Anal. Chem. (Nov. 2007) |