![](https://images.squarespace-cdn.com/content/v1/5fc76e1cf59f035d0ccd1073/38a7f1de-6c13-4fa4-8e51-92bdfcfd2fb6/Publications.jpg)
PUBLICATIONS
![Mechanics of human embryo compaction - Nature](https://images.squarespace-cdn.com/content/v1/5fc76e1cf59f035d0ccd1073/1681824072788-TKWRFKIVV6CFDR0KD4T1/HumanCompaction.png)
Mechanics of human embryo compaction - Nature
J. Firmin, N. Ecker, D. Rivet Danon, V. Barraud Lange, H. Turlier, C. Patrat, J-L. Maître, Nature (2024)
![Embryo mechanics cartography: inference of 3D force atlases from fluorescence microscopy - Nature Methods](https://images.squarespace-cdn.com/content/v1/5fc76e1cf59f035d0ccd1073/1681580782969-HH5J1501TJAEIX2QWMT0/Figure_1.png)
Embryo mechanics cartography: inference of 3D force atlases from fluorescence microscopy - Nature Methods
S. Ichbiah, F. Delbary, A. Mcdougall, R. Dumollard, H. Turlier Nature Methods 20, 1989–1999.
![Actin-driven protrusions generate rapid long-range membrane tension propagation in cells - Cell](https://images.squarespace-cdn.com/content/v1/5fc76e1cf59f035d0ccd1073/1681581586151-YSAVZFB51611PWUSHB83/DeBelly.png)
Actin-driven protrusions generate rapid long-range membrane tension propagation in cells - Cell
H. de Belly, S. Yan, H. Borja da Rocha, S. Ichbiah, J.P. Town, H. Turlier*, C.J. Bustamante*, O.D. Weiner*, Cell 2023
![Dissecting the subcellular forces sculpting early C. elegans embryos - preprint](https://images.squarespace-cdn.com/content/v1/5fc76e1cf59f035d0ccd1073/b9337870-c20d-44d6-9506-58a0b289964a/Figure1.png)
Dissecting the subcellular forces sculpting early C. elegans embryos - preprint
K. Yamamoto, S. Ichbiah, J. Pinto, F. Delbary, N. Goehring, H. Turlier, G. Charras biorRxiv 2023.04.12.536641
![Blastocoel morphogenesis: a biophysics perspective - Semin. Cell Dev. Biol.](https://images.squarespace-cdn.com/content/v1/5fc76e1cf59f035d0ccd1073/1624963148079-4QDI9YV1PM1BJJ8M28U1/fig2_blastocoel_formation.png)
Blastocoel morphogenesis: a biophysics perspective - Semin. Cell Dev. Biol.
M. Le Verge-Serandour, H. Turlier* (2021) Blastocoel morphogenesis: a biophysics perspective. Semin Cell Dev
![Mechanics of tissue compaction](https://images.squarespace-cdn.com/content/v1/5fc76e1cf59f035d0ccd1073/1607115012682-VT2WWV85Z9DQLT4MT30V/2015_compaction_review.png)
Mechanics of tissue compaction
J.-L. Maître, H. Turlier. Mechanics of tissue compaction. Seminars in Cell & Developmental Biology 47, 110-117 (2015).
![Pulsatile cell-autonomous contractility drives compaction in the mouse embryo](https://images.squarespace-cdn.com/content/v1/5fc76e1cf59f035d0ccd1073/1607113227731-F8O93N2FFQEJ01MUMGJ3/2015_compaction.jpg)
Pulsatile cell-autonomous contractility drives compaction in the mouse embryo
J.-L. Maître, R. Niwayama, H. Turlier, F. Nédélec, and T. Hiiragi. Pulsatile cell-autonomous contractility drives compaction in the mouse embryo. Nature Cell Biology 17, 849-855 (2015)
![Mechanical checkpoint for persistent cell polarization in adhesion-naive fibroblasts](https://images.squarespace-cdn.com/content/v1/5fc76e1cf59f035d0ccd1073/1607116296826-09XA0UFAGIHA1841DMBY/mechanicalcue_2014.png)
Mechanical checkpoint for persistent cell polarization in adhesion-naive fibroblasts
P. Bun, J. Liu, H. Turlier, Z. Liu, K. Uriot, J.-F. Joanny and M. Coppey-Moisan, Mechanical checkpoint for persistent cell polarization in adhesion-naive fibroblasts. Biophysical Journal 107, 324-335 (2014).
![Furrow constriction in animal cell cytokinesis](https://images.squarespace-cdn.com/content/v1/5fc76e1cf59f035d0ccd1073/1607113692542-ZI83U5O7U26QDD4U01HV/2014_cytokinesis.png)
Furrow constriction in animal cell cytokinesis
H. Turlier*, B. Audoly, J. Prost, and J.-F. Joanny. Furrow constriction in animal cell cytokinesis. Biophysical Journal 106, 114-123 (2014)