D. Basu and E. S. Haswell, Plant mechanosensitive ion channels: an ocean of possibilities, Curr. Opin. Plant Biol, vol.40, pp.43-48, 2017.

L. Beauzamy, M. Louveaux, O. Hamant, and A. Boudaoud, Mechanically, the shoot apical meristem of arabidopsis behaves like a shell inflated by a pressure of about 1 MPa, Front. Plant Sci, vol.6, p.1038, 2015.
URL : https://hal.archives-ouvertes.fr/hal-02630877

A. Boudaoud, An introduction to the mechanics of morphogenesis for plant biologists, Trends Plant Sci, vol.15, pp.353-360, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00521488

R. Bouffanais, J. Sun, and D. K. Yue, Physical limits on cellular directional mechanosensing, Phys. Rev. E, vol.87, p.52716, 2013.

J. S. Boyer, Evans review: cell wall biosynthesis and the molecular mechanism of plant enlargement, Funct. Plant Biol, vol.36, pp.383-394, 2009.

B. Bozorg, P. Krupinski, J. , and H. , Stress and strain provide positional and directional cues in development, PLoS Comput. Biol, vol.10, p.1003410, 2014.

M. Bringmann and D. C. Bergmann, Tissue-wide mechanical forces influence the polarity of stomatal stem cells in Arabidopsis, Curr. Biol, vol.27, pp.877-883, 2017.

A. Brutus, F. Sicilia, A. Macone, F. Cervone, and G. D. Lorenzo, A domain swap approach reveals a role of the plant wall-associated kinase 1 (WAK1) as a receptor of oligogalacturonides, Proc. Natl. Acad. Sci. U.S.A, vol.107, pp.9452-9457, 2010.

R. A. Burton, M. J. Gidley, and G. B. Fincher, Heterogeneity in the chemistry, structure and function of plant cell walls, Nat. Chem. Biol, vol.6, pp.724-732, 2010.

D. J. Cosgrove, Diffuse growth of plant cell walls, Plant Physiol, vol.176, pp.16-27, 2018.

D. J. Cosgrove, Nanoscale structure, mechanics and growth of epidermal cell walls, Curr. Opin. Plant Biol, vol.46, pp.77-86, 2018.

A. Decreux and J. Messiaen, Wall-associated Kinase WAK1 interacts with cell wall pectins in a calcium-induced conformation, Plant Cell Physiol, vol.46, pp.268-278, 2005.

F. A. Ditengou, W. D. Teale, P. Kochersperger, K. A. Flittner, I. Kneuper et al., Mechanical induction of lateral root initiation in Arabidopsis thaliana, Proc. Natl. Acad. Sci. U.S.A, vol.105, pp.18818-18823, 2008.

C. Eloy, Leonardo's rule, self-similarity, and wind-induced stresses in trees, Phys. Rev. Lett, vol.107, p.258101, 2011.

T. Engelsdorf, N. Gigli-bisceglia, M. Veerabagu, J. F. Mckenna, L. Vaahtera et al., The plant cell wall integrity maintenance and immune signaling systems cooperate to control stress responses in Arabidopsis thaliana, Sci. Signal, vol.11, p.3070, 2018.

J. Étienne, J. Fouchard, D. Mitrossilis, N. Bufi, P. Durand-smet et al., Cells as liquid motors: Mechanosensitivity emerges from collective dynamics of actomyosin cortex, Proc. Natl. Acad. Sci. U.S.A, vol.112, pp.2740-2745, 2015.

W. Feng, D. Kita, A. Peaucelle, H. N. Cartwright, V. Doan et al., The FERONIA receptor kinase maintains cell-wall integrity during salt stress through Ca2+ signaling, Curr. Biol, vol.28, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02625236

U. Fischer, M. Kucukoglu, Y. Helariutta, and R. P. Bhalerao, The dynamics of cambial stem cell activity, Annu. Rev. Plant Biol, vol.70, pp.293-319, 2019.

R. Galletti, S. Verger, O. Hamant, and G. C. Ingram, Developing a 'thick skin': a paradoxical role for mechanical tension in maintaining epidermal integrity?, Development, vol.143, pp.3249-3258, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01606967

N. C. Gauthier, T. A. Masters, and M. P. Sheetz, Mechanical feedback between membrane tension and dynamics, Trends Cell Biol, vol.22, pp.527-535, 2012.

P. B. Green, R. O. Erickson, and J. Buggy, Metabolic and physical control of cell elongation rate: in vivo studies in Nitella, Plant Physiol, vol.47, pp.423-430, 1971.

Y. Guerringue, S. Thomine, and J. Frachisse, Sensing and transducing forces in plants with MSL10 and DEK1 mechanosensors, FEBS Lett, vol.592, pp.1968-1979, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02178894

O. Hamant and E. S. Haswell, Life behind the wall: sensing mechanical cues in plants, BMC Biol, vol.15, p.59, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01594579

O. Hamant, M. G. Heisler, H. Jönsson, P. Krupinski, M. Uyttewaal et al., Developmental patterning by mechanical signals in Arabidopsis, Science, vol.322, pp.1650-1655, 2008.
URL : https://hal.archives-ouvertes.fr/hal-00412612

M. Haruta, G. Sabat, K. Stecker, B. B. Minkoff, and M. R. Sussman, A peptide hormone and its receptor protein kinase regulate plant cell expansion, Science, vol.343, pp.408-411, 2014.

M. G. Heisler, O. Hamant, P. Krupinski, M. Uyttewaal, C. Ohno et al., Alignment between PIN1 polarity and microtubule orientation in the shoot apical meristem reveals a tight coupling between morphogenesis and auxin transport, PLoS Biol, vol.8, p.1000516, 2010.

Z. Hejnowicz, Tensional stress in the cambium and its developmental significance, Am. J. Bot, vol.67, pp.1-5, 1980.

H. Höfte and A. Voxeur, Plant cell walls, Curr. Biol, vol.27, 2017.

E. Jamet, C. Albenne, G. Boudart, M. Irshad, H. Canut et al., Recent advances in plant cell wall proteomics, Proteomics, vol.8, pp.893-908, 2008.
URL : https://hal.archives-ouvertes.fr/hal-00261486

B. D. Kohorn, S. Johansen, A. Shishido, T. Todorova, R. Martinez et al., Pectin activation of MAP kinase and gene expression is WAK2 dependent, Plant J, vol.60, pp.974-982, 2009.

C. A. Kumamoto, Molecular mechanisms of mechanosensing and their roles in fungal contact sensing, Nat. Rev. Microbiol, vol.6, pp.667-673, 2008.

U. Kutschera and K. J. Niklas, The epidermal-growth-control theory of stem elongation: an old and a new perspective, J. Plant Physiol, vol.164, pp.1395-1409, 2007.

B. Landrein and O. Hamant, How mechanical stress controls microtubule behavior and morphogenesis in plants: history, experiments and revisited theories, Plant J, vol.75, pp.324-338, 2013.

B. Landrein, A. Kiss, M. Sassi, A. Chauvet, P. Das et al., Mechanical stress contributes to the expression of the STM homeobox gene in Arabidopsis shoot meristems, vol.4, p.7811, 2015.
URL : https://hal.archives-ouvertes.fr/hal-02631439

D. Lee, D. H. Polisensky, and J. Braam, Genome-wide identification of touch-and darkness-regulated Arabidopsis genes: a focus on calmodulin-like and XTH genes, New Phytol, vol.165, pp.429-444, 2005.

Z. Liu, S. Persson, and C. Sánchez-rodríguez, At the border: the plasma membrane-cell wall continuum, J. Exp. Bot, vol.66, pp.1553-1563, 2015.

J. A. Lockhart, An analysis of irreversible plant cell elongation, J. Theor. Biol, vol.8, pp.264-275, 1965.

M. A. Mecchia, G. Santos-fernandez, N. N. Duss, S. C. Somoza, A. Boisson-dernier et al., RALF4/19 peptides interact with LRX proteins to control pollen tube growth in Arabidopsis, Science, vol.358, pp.1600-1603, 2017.

V. Mirabet, P. Das, A. Boudaoud, and O. Hamant, the role of mechanical forces in plant morphogenesis, Annu. Rev. Plant Biol, vol.62, pp.365-385, 2011.
URL : https://hal.archives-ouvertes.fr/hal-02644734

G. B. Monshausen and E. S. Haswell, A force of nature: molecular mechanisms of mechanoperception in plants, J. Exp. Bot, vol.64, pp.4663-4680, 2013.

J. Moore, B. Gardiner, and D. Sellier, Tree Mechanics and Wind Loading, Plant Biomechanics: From Structure to Function at Multiple Scales, pp.79-106, 2018.

B. Moulia, C. Coutand, and J. Julien, Mechanosensitive control of plant growth: bearing the load, sensing, transducing, and responding. Front, Plant Sci, vol.6, p.52, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01123388

R. Munns, J. B. Passioura, J. Guo, O. Chazen, and G. R. Cramer, Water relations and leaf expansion: importance of time scale, J. Exp. Bot, vol.51, pp.1495-1504, 2000.

E. Murphy, D. Smet, and I. , Understanding the RALF family: a tale of many species, Trends Plant Sci, vol.19, pp.664-671, 2014.

N. Nakayama, R. S. Smith, T. Mandel, S. Robinson, S. Kimura et al., Mechanical regulation of auxin-mediated growth, Curr. Biol, vol.22, pp.1468-1476, 2012.
URL : https://hal.archives-ouvertes.fr/hal-02644270

T. Okuyama, H. Yamamoto, M. Yoshida, Y. Hattori, and R. R. Archer, Growth stresses in tension wood: role of microfibrils and lignification, Ann. Sci. For, vol.51, pp.291-300, 1994.
URL : https://hal.archives-ouvertes.fr/hal-00882950

A. W. Orr, B. P. Helmke, B. R. Blackman, and M. A. Schwartz, Mechanisms of mechanotransduction, Dev. Cell, vol.10, pp.11-20, 2006.

J. K. Ortega, Augmented growth equation for cell wall expansion, Plant Physiol, vol.79, 1985.

W. S. Peters and A. D. Tomos, The history of tissue tension, Ann. Bot, vol.77, pp.657-665, 1996.

R. Peyronnet, D. Tran, T. Girault, and J. Frachisse, Mechanosensitive channels: feeling tension in a world under pressure, Front. Plant Sci, vol.5, p.58, 2014.

S. Poppinga, C. Weisskopf, A. S. Westermeier, T. Masselter, and T. Speck, Fastest predators in the plant kingdom: functional morphology and biomechanics of suction traps found in the largest genus of carnivorous plants, AoB Plants, vol.8, p.140, 2016.

T. E. Proseus, J. K. Ortega, and J. S. Boyer, Separating growth from elastic deformation during cell enlargement, Plant Physiol, vol.119, pp.775-784, 1999.

S. Robinson and C. Kuhlemeier, Global compression reorients cortical microtubules in arabidopsis hypocotyl epidermis and promotes growth, Curr. Biol, vol.28, 2018.

R. Rodicio and J. J. Heinisch, Together we are strong-cell wall integrity sensors in yeasts, Yeast, vol.27, pp.531-540, 2010.

A. Sapala, A. Runions, A. Routier-kierzkowska, M. D. Gupta, L. Hong et al., Why plants make puzzle cells, and how their shape emerges, vol.7, p.32794, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02622500

H. Shih, N. D. Miller, C. Dai, E. P. Spalding, and G. B. Monshausen, The receptor-like Kinase FERONIA is required for mechanical signal transduction in arabidopsis seedlings, Curr. Biol, vol.24, pp.1887-1892, 2014.

A. M. Showalter and D. Basu, Extensin and arabinogalactan-protein biosynthesis: glycosyltransferases, research challenges, and biosensors. Front, Plant Sci, vol.7, p.814, 2016.

C. Somerville, Cellulose synthesis in higher plants, Annu. Rev. Cell Dev. Biol, vol.22, pp.53-78, 2006.

N. Sorek, H. Sorek, A. Kijac, H. J. Szemenyei, S. Bauer et al., The Arabidopsis COBRA protein facilitates cellulose crystallization at the plasma membrane, J. Biol. Chem, vol.289, pp.34911-34920, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01204115

L. Tan, S. Eberhard, S. Pattathil, C. Warder, J. Glushka et al., , 2013.

, An Arabidopsis cell wall proteoglycan consists of pectin and arabinoxylan covalently linked to an arabinogalactan protein, Plant Cell, vol.25, pp.270-287

A. Trewavas and M. Knight, Mechanical signalling, calcium and plant form, Plant Mol. Biol, vol.26, pp.1329-1341, 1994.

S. Verger, Y. Long, A. Boudaoud, and O. Hamant, A tensionadhesion feedback loop in plant epidermis, vol.7, p.34460, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02621933

A. Voxeur and S. C. Fry, Glycosylinositol phosphorylceramides from Rosa cell cultures are boron-bridged in the plasma membrane and form complexes with rhamnogalacturonan II, Plant J, vol.79, pp.139-149, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01204160

W. G. Willats, C. Orfila, G. Limberg, H. C. Buchholt, G. W. Alebeek et al., Modulation of the degree and pattern of methyl-esterification of pectic homogalacturonan in plant cell walls implications for pectin methyl esterase action, matrix properties, and cell adhesion, J. Biol. Chem, vol.276, pp.19404-19413, 2001.

S. Wolf, Plant cell wall signalling and receptor-like kinases, Biochem. J, vol.474, pp.471-492, 2017.

F. Zhao, W. Chen, and J. Traas, Mechanical signaling in plant morphogenesis, Curr. Opin. Genet. Dev, vol.51, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02623212