A. Andrawis, M. Solomon, and D. P. Delmer, Cotton fiber annexins: a potential role in the regulation of callose synthase, The Plant Journal, vol.3, pp.763-772, 1993.

F. Baluska, J. Samaj, R. Napier, and D. Volkmann, Maize calreticulin localizes preferentially to plasmodesmata in root apex, The Plant Journal, vol.19, pp.481-488, 1999.

D. A. Barton, L. Cole, D. A. Collings, D. Y. Liu, P. M. Smith et al.,

, Cell-to-cell transport via the lumen of the endoplasmic reticulum, The Plant Journal, vol.66, pp.806-817

L. Beauzamy, J. Derr, and A. Boudaoud, Quantifying hydrostatic pressure in plant cells by using indentation with an atomic force microscope, Biophysical Journal, vol.108, pp.2448-2456, 2015.
URL : https://hal.archives-ouvertes.fr/hal-02636803

H. Sharifah-barlian-aidid and . Okamoto, Responses of elongation growth rate, turgor pressure and cell wall extensibility of stem cells of impatiens balsamina to lead, cadmium and zinc, Biometals, vol.6, issue.4, pp.245-249, 1993.

W. L. Applequist, R. Cronn, and J. F. Wendel, Comparative development of fiber in wild and cultivated cotton, Evolution & Development, vol.3, issue.1, pp.3-17, 2001.

U. Avci, S. Pattathil, B. Singh, V. L. Brown, M. G. Hahn et al., Cotton fiber cell walls of gossypium hirsutum and gossypium barbadense have differences related to loosely-bound xyloglucan, PLOS ONE, vol.8, issue.2, p.2013

S. Amarjit, C. P. Basra, and . Malik, Development of the cotton fiber, vol.89, pp.65-113, 1984.

I. Cheddadi, M. Génard, N. Bertin, and C. Godin, Coupling water fluxes with cell wall mechanics in a multicellular model of plant development, PLOS Computational Biology, vol.15, issue.6, pp.1-16, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02196768

D. J. Cosgrove, Cell wall yield properties of growing tissue, Plant Physiology, vol.78, issue.2, pp.347-356, 1985.

V. Couvreur, M. Faget, G. Lobet, M. Javaux, F. Chaumont et al., Going with the flow: Multiscale insights into the composite nature of water transport in roots, Plant Physiology, vol.178, issue.4, pp.1689-1703, 2018.

S. Rajinder, C. A. Dhindsa, I. P. Beasley, and . Ting, Osmoregulation in cotton fiber, Plant Physiology, vol.56, issue.3, pp.394-398, 1975.

K. Ehlers and R. Kollman, Primary and secondary plasmodesmata: structure, origin, and functioning, Protoplasma, vol.216, issue.1, 2001.

E. P. Eleftheriou and J. L. Hall, The Extrafloral Nectaries of Cotton: I. FINE STRUCTURE OF THE SECRETORY PAPILLAE, Journal of Experimental Botany, vol.34, issue.2, pp.103-119, 1983.

C. Faulkner, O. E. Akman, K. Bell, C. Jeffree, and K. Oparka, Peeking into pit fields: A multiple twinning model of secondary plasmodesmata formation in tobacco, The Plant Cell, vol.20, issue.6, pp.1504-1518, 2008.

K. J. Foster and S. J. Miklavcic, A comprehensive biophysical model of ion and water transport in plant roots. i. clarifying the roles of endodermal barriers in the salt stress response, Frontiers in Plant Science, vol.8, p.1326, 2017.

A. Geitmann and J. Ortega, Mechanics and modeling of plant cell growth, Trends in Plant Science, vol.14, issue.9, pp.467-478, 2009.

C. Haigler, L. Betancur, M. Stiff, and J. Tuttle, Cotton fiber: a powerful single-cell model for cell wall and cellulose research, Frontiers in Plant Science, vol.3, p.104, 2012.

K. Jensen, D. Mullendore, N. M. Holbrook, T. Bohr, M. Knoblauch et al., Modeling the hydrodynamics of phloem sieve plates, Frontiers in Plant Science, vol.3, p.151, 2012.

H. Kaare, M. A. Jensen, and . Zwieniecki, Physical limits to leaf size in tall trees, Phys. Rev. Lett, vol.110, p.18104, 2013.

H. J. Kim and B. A. Triplett, Cotton fiber growth in planta and in vitro. models for plant cell elongation and cell wall biogenesis, Plant Physiology, vol.127, issue.4, pp.1361-1366, 2001.

X. Yangmin, E. Kim, and . Steudle, Light and turgor affect the water permeability (aquaporins) of parenchyma cells in the midrib of leaves of Zea mays, Journal of Experimental Botany, vol.58, pp.4119-4129, 2007.

D. Li, X. Ruan, J. Zhang, Y. Wu, X. Wang et al., Cotton plasma membrane intrinsic protein 2s (pip2s) selectively interact to regulate their water channel activities and are required for fibre development, New Phytologist, vol.199, issue.3, pp.695-707, 2013.

J. A. Lockhart, An analysis of irreversible plant cell elongation, Journal of Theoretical Biology, vol.8, issue.2, pp.264-275, 1965.

C. Maurel, Aquaporins and water permeability of plant membranes, Annual Review of Plant Physiology and Plant Molecular Biology, vol.48, issue.1, pp.399-429, 1997.

M. C. Meinert and D. P. Delmer, Changes in biochemical composition of the cell wall of the cotton fiber during development, Plant Physiology, vol.59, issue.6, pp.1088-1097, 1977.

B. A. Palevitz and P. Hepler, Changes in dye coupling of stomatal cells of allium and commelina demonstrated by microinjection of lucifer yellow, Planta, issue.164, p.473, 1985.

Y. Ruan, D. J. Llewellyn, and R. T. Furbank, The control of single-celled cotton fiber elongation by developmentally reversible gating of plasmodesmata and coordinated expression of sucrose and k+ transporters and expansin, The Plant Cell, vol.13, issue.1, pp.47-60, 2001.

S. Yong-ling-ruan, R. Xu, R. T. White, and . Furbank, Genotypic and developmental evidence for the role of plasmodesmatal regulation in cotton fiber elongation mediated by callose turnover, Plant physiology, vol.136, issue.4, pp.4104-4113, 2004.

P. Schopfer, Biomechanics of plant growth, American Journal of Botany, vol.93, issue.10, pp.1415-1425, 2006.

A. Schulz, Plasmodesmal widening accompanies the short-term increase in symplasmic phloem unloading in pea root tips under osmotic stress, vol.188, pp.22-37, 1995.

L. Taiz and E. Zeiger, Plant Physiology, 2002.

A. S. Basra, M. , and C. , Development of the cotton fiber, pp.65-113

Y. Benitez-alfonso, C. Faulkner, A. Pendle, S. Miyashima, Y. Helariutta et al., Symplastic intercellular connectivity regulates lateral root patterning, Developmental Cell, vol.26, pp.136-147, 2016.

T. M. Burch-smith and P. C. Zambryski, Plasmodesmata paradigm shift: Regulation from without versus within, Annual Review of Plant Biology, vol.63, pp.239-260, 2012.

X. Chen and J. Kim, Callose synthesis in higher plants, Plant Signaling & Behavior, vol.4, pp.489-492, 2009.

J. Comtet, R. Turgeon, and A. D. Stroock, Phloem loading through plasmodesmata: A biophysical analysis, Plant Physiology, vol.175, pp.904-915, 2017.

D. J. Cosgrove, Expansive growth of plant cell walls, Plant Physiology and Biochemistry, vol.38, pp.109-124, 2000.

D. J. Cosgrove, Growth of the plant cell wall, Nature Reviews Molecular Cell Biology, vol.6, pp.850-861, 2005.

D. J. Cosgrove, Plant cell wall extensibility: connecting plant cell growth with cell wall structure, mechanics, and the action of wall-modifying enzymes, Journal of Experimental Botany, vol.67, pp.463-476, 2015.

R. S. Dhindsa, C. A. Beasley, and I. P. Ting, Osmoregulation in cotton fiber, Plant Physiology, vol.56, pp.394-398, 1975.

A. J. Fleming, S. Mcqueen-mason, T. Mandel, and C. Kuhlemeier, Induction of leaf primordia by the cell wall protein expansin, Science, vol.276, pp.1415-1418, 1997.

A. Geitmann and J. K. Ortega, Mechanics and modeling of plant cell growth, Trends in Plant Science, vol.14, pp.467-478, 2009.

M. González, T. Roitsch, and F. J. Cejudo, Circadian and developmental regulation of vacuolar invertase expression in petioles of sugar beet plants, Planta, vol.222, pp.386-395, 2005.

J. M. Guseman, J. S. Lee, N. L. Bogenschutz, K. M. Peterson, R. E. Virata et al., Dysregulation of cell-to-cell connectivity and stomatal patterning by loss-of-function mutation in arabidopsis chorus (glucan synthase-like 8), Development, vol.137, pp.1731-1741, 2010.

C. Haigler, L. Betancur, M. Stiff, and J. Tuttle, Cotton fiber: a powerful single-cell model for cell wall and cellulose research, Frontiers in Plant Science, vol.3, p.104, 2012.

T. Hayashi, Xyloglucans in the primary cell wall, Annual Review of Plant Physiology and Plant Molecular Biology, vol.40, pp.139-168, 1989.

T. Henzler and E. Steudle, Reversible closing of water channels in Chara internodes provides evidence for a composite transport model of the plasma membrane, Journal of Experimental Botany, vol.46, issue.2, pp.199-209, 1995.

T. L. Holdaway-clarke, N. A. Walker, and R. L. Overall, Measurement of the electrical resistance of plasmodesmata and membranes of corn suspension-culture cells, Planta, vol.199, issue.4, pp.537-544, 1996.

R. Hovav, J. A. Udall, E. Hovav, R. Rapp, L. Flagel et al., A majority of cotton genes are expressed in single-celled fiber, Planta, vol.227, pp.319-329, 2008.

M. W. Iersel and D. M. Oosterhuis, Drought effects on the water relations of cotton fruits, bracts, and leaves during ontogeny, Environmental and Experimental Botany, vol.36, pp.51-59, 1996.

U. Johanson, M. Karlsson, I. Johansson, S. Gustavsson, S. Sjövall et al., The complete set of genes encoding major intrinsic proteins in arabidopsis provides a framework for a new nomenclature for major intrinsic proteins in plants, Plant Physiology, vol.126, pp.1358-1369, 2001.

H. J. Kim and B. A. Triplett, Cotton fiber growth in planta and in vitro. models for plant cell elongation and cell wall biogenesis, Plant Physiology, vol.127, pp.1361-1366, 2001.

D. Liu, L. Tu, L. Wang, Y. Li, L. Zhu et al., Characterization and expression of plasma and tonoplast membrane aquaporins in elongating cotton fibers, Plant Cell Reports, vol.27, pp.1385-1394, 2008.

Y. Makoto, S. Anastasia, D. Samuel, A. , B. Eileen et al., Patterning mechanisms of cytoskeletal and cell wall systems during leaf trichome morphogenesis, Nature Plants, vol.1, p.15014, 2015.

C. Maurel, Aquaporins and water permeability of plant membranes, Annual Review of Plant Physiology and Plant Molecular Biology, vol.48, pp.399-429, 1997.

C. Maurel, F. Tacnet, J. Güclü, J. Guern, R. et al., Purified vesicles of tobacco cell vacuolar and plasma membranes exhibit dramatically different water permeability and water channel activity, Proceedings of the National Academy of Sciences, vol.94, pp.7103-7108, 1997.

S. Mcqueen-mason and D. J. Cosgrove, Disruption of hydrogen bonding between plant cell wall polymers by proteins that induce wall extension, Proceedings of the National Academy of Sciences, vol.91, pp.6574-6578, 1994.

M. C. Meinert and D. P. Delmer, Changes in biochemical composition of the cell wall of the cotton fiber during development, Plant Physiology, vol.59, pp.1088-1097, 1977.

M. Naoumkina, G. N. Thyssen, and D. D. Fang, Rna-seq analysis of short fiber mutants ligon-lintless-1 (li 1 ) and -2 (li 2 ) revealed important role of aquaporins in cotton (gossypium hirsutum l.) fiber elongation, BMC Plant Biology, vol.15, p.65, 2015.

S. A. Newman and R. Bhat, Dynamical patterning modules: a pattern language for development and evolution of multicellular form, International Journal of Developmental Biology, vol.53, pp.693-705, 2009.

W. J. Nicolas, M. S. Grison, and T. S. , Architecture and permeability of post-cytokinesis plasmodesmata lacking cytoplasmic sleeves, Nat Plants, vol.3, p.17082, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01602621

Y. Ohmiya, M. Samejima, M. Shiroishi, Y. Amano, T. Kanda et al., Evidence that endo-1,4--glucanases act on cellulose in suspension-cultured poplar cells, The Plant Journal, vol.24, pp.147-158, 2000.

K. Oparka and D. Prior, Direct evidence for pressure-generated closure of plasmodesmata, The Plant Journal, vol.2, pp.741-750, 1992.

S. Pien, J. Wyrzykowska, S. Mcqueen-mason, C. Smart, F. et al., Local expression of expansin induces the entire process of leaf development and modifies leaf shape, Proceedings of the National Academy of Sciences, vol.98, pp.11812-11817, 2001.

B. Péret, G. Li, J. Zhao, L. R. Band, U. Voß et al., Auxin regulates aquaporin function to facilitate lateral root emergence, Nature Cell Biology, vol.14, pp.991-998, 2012.

Y. Qin and Y. Zhu, How cotton fibers elongate: a tale of linear cell-growth mode, Current Opinion in Plant Biology, vol.14, pp.106-111, 2011.

Y. Ruan, S. Xu, R. White, and R. T. Furbank, Genotypic and developmental evidence for the role of plasmodesmatal regulation in cotton fiber elongation mediated by callose turnover, Plant physiology, vol.136, pp.4104-4113, 2004.

A. Schulz, Plasmodesmal widening accompanies the short-term increase in symplasmic phloem unloading in pea root tips under osmotic stress, Protoplasma, vol.188, pp.22-37

R. W. Seagull, The effects of microtubule and microfilament disrupting agents on cytoskeletal arrays and wall deposition in developing cotton fibers, Protoplasma, vol.159, pp.44-59, 1990.

Y. Shimizu, S. Aotsuka, O. Hasegawa, T. Kawada, T. Sakuno et al., Changes in Levels of mRNAs for Cell Wall-Related Enzymes in Growing Cotton Fiber Cells1, Plant and Cell Physiology, vol.38, issue.3, pp.375-378, 1997.

L. Taiz and E. Zeiger, Plant Physiology, 2002.

W. Tang, L. Tu, X. Yang, J. Tan, F. Deng et al., The calcium sensor ghcam7 promotes cotton fiber elongation by modulating reactive oxygen species (ros) production, New Phytologist, vol.202, pp.509-520, 2014.

S. C. Tiwari and T. A. Wilkins, Cotton Gossypium hirsutum seed trichomes expand via diffuse growing mechanismsfiber, Canadian Journal of Botany, vol.73, pp.746-757, 1995.

V. Hernández-hernández, K. J. Niklas, S. A. Benítez, and M. , Dynamical patterning modules in plant development and evolution, International Journal of Developmental Biology, vol.56, pp.661-674, 2012.

J. E. Vermeer, D. Von-wangenheim, M. Barberon, Y. Lee, E. H. Stelzer et al., A spatial accommodation by neighboring cells is required for organ initiation in arabidopsis, Science, vol.343, pp.178-183, 2014.

O. V. Voitsekhovskaja, O. A. Koroleva, D. R. Batashev, C. Knop, A. D. Tomos et al., Phloem loading in two scrophulariaceae species. what can drive symplastic flow via plasmodesmata?, Plant Physiology, vol.140, issue.1, pp.383-395, 2006.

L. Wang, X. Li, H. Lian, D. Ni, Y. He et al., Evidence that high activity of vacuolar invertase is required for cotton fiber and arabidopsis root elongation through osmotic dependent and independent pathways, respectively, Plant Physiology, vol.154, pp.744-756, 2010.

R. Zavaliev, S. Ueki, B. L. Epel, and V. Citovsky, Biology of callose (?-1,3-glucan) turnover at plasmodesmata, Protoplasma, vol.248, pp.117-130, 2011.

S. Zenoni, L. Reale, G. B. Tornielli, L. Lanfaloni, A. Porceddu et al., Downregulation of the petunia hybrida -expansin gene phexp1 reduces the amount of crystalline cellulose in cell walls and leads to phenotypic changes in petal limbs, The Plant Cell, vol.16, pp.295-308, 2004.

Z. Zhang, Y. Ruan, N. Zhou, F. Wang, X. Guan et al., Suppressing a putative sterol carrier gene reduces plasmodesmal permeability and activates sucrose transporter genes during cotton fiber elongation, The Plant Cell, 2017.

J. Alassimone, S. Naseer, and N. Geldner, A developmental framework for endodermal differentiation and polarity, Proc. Natl. Acad. Sci. U.S.A, vol.107, pp.5214-5219, 2010.

R. Albert and H. G. Othmer, The topology of the regulatory interactions predicts the expression pattern of the segment polarity genes in Drosophila melanogaster, J. Theor. Biol, vol.223, pp.1-18, 2003.

E. R. Alvarez-buylla, M. Benítez, E. B. Dávila, A. Chaos, C. Espinosa-soto et al., Gene regulatory network models for plant development, Curr. Opin. Plant Biol, vol.10, pp.83-91, 2007.

J. A. Arias-del-angel, A. E. Escalante, L. P. Martinez-castilla, and M. Benitez, An evo-devo perspective on multicellular development of Myxobacteria, J. Exp. Zool. B Mol. Dev. Evol, vol.328, pp.165-178, 2017.

N. Beaumont, Modelling the transport of nutrients in early animals, Evol. Biol, vol.36, pp.256-266, 2009.

M. J. Beilby, Multi-scale characean experimental system: from electrophysiology of membrane transporters to cell-to-cell connectivity, cytoplasmic streaming and auxin metabolism, Front. Plant Sci, vol.7, p.1052, 2016.

M. Benítez and J. Hejatko, Dynamics of cell-fate determination and patterning in the vascular bundles of Arabidopsis thaliana, PLoS One, vol.8, p.63108, 2013.

M. Benítez, N. A. Monk, and E. R. Alvarez-buylla, Epidermal patterning in Arabidopsis: models make a difference, J. Exp. Zool. B Mol. Dev. Evol, vol.316, pp.241-253, 2011.

Y. Benitez-alfonso, C. Faulkner, A. Pendle, S. Miyashima, Y. Helariutta et al., Symplastic intercellular connectivity regulates lateral root patterning, Dev. Cell, vol.26, pp.136-147, 2013.

S. Bloemendal and U. Kück, Cell-to-cell communication in plants, animals, and fungi: a comparative review, Naturwissenschaften, vol.100, pp.3-19, 2013.

J. T. Bonner, First Signals: The Evolution of Multicellular Development, 2000.

H. Breuninger, A. Thamm, S. Streubel, H. Sakayama, T. Nishiyama et al., Diversification of a transcription factor family led to the evolution of antagonistically acting genetic regulators of root hair growth, Curr. Biol, vol.26, pp.1622-1628, 2016.

J. O. Brunkard and P. C. Zambryski, Plasmodesmata enable multicellularity: new insights into their evolution, biogenesis, and functions in development and immunity, Curr. Opin. Plant Biol, vol.35, pp.76-83, 2017.

M. C. Cannon, K. Terneus, Q. Hall, L. Tan, Y. Wang et al., Self-assembly of the plant cell wall requires an extension scaffold, Proc. Natl. Acad. Sci. U.S.A, vol.105, pp.2226-2231, 2008.

A. Carlsbecker, J. Y. Lee, C. J. Roberts, J. Dettmer, S. Lehesranta et al., Cell signalling by microRNA165/6 directs gene dose-dependent root cell fate, Nature, vol.465, pp.316-321, 2010.

N. M. Christensen, C. Faulkner, and K. Oparka, Evidence for unidirectional flow through plasmodesmata, Plant Physiol, vol.150, pp.96-104, 2009.

M. Cook, L. Graham, C. Botha, and C. Lavin, Comparative ultrastructure of plasmodesmata of Chara and selected bryophytes: toward an elucidation of the evolutionary origin of plant plasmodesmata, Am. J. Bot, vol.84, p.1169, 1997.

M. Cook, L. Graham, A. J. Van-bel, and W. J. Van-kesteren, Evolution of plasmodesmata, Plasmodesmata: Structure, Function, Role in Cell Communication, 1999.

H. Cui, M. P. Levesque, T. Vernoux, J. W. Jung, A. J. Paquette et al., An evolutionarily conserved mechanism delimiting SHR movement defines a single layer of endodermis in plants, Science, vol.316, pp.421-425, 2007.
URL : https://hal.archives-ouvertes.fr/hal-00412589

N. De-storme and D. Geelen, Callose homeostasis at plasmodesmata: molecular regulators and developmental relevance, Front. Plant Sci, vol.5, p.138, 2014.

J. Dettmer and J. Friml, Cell polarity in plants: when two do the same, it is not the same, Curr. Opin. Cell Biol, vol.23, pp.686-696, 2011.

L. Z. Drábková and D. Honys, Evolutionary history of callose synthases in terrestrial plants with emphasis on proteins involved in male gametophyte development, PLoS One, vol.12, p.187331, 2017.

C. Faulkner and A. Maule, Opportunities and successes in the search for plasmodesmal proteins, Protoplasma, vol.248, pp.27-38, 2011.

P. J. Ferris, J. P. Woessner, S. Waffenschmidt, S. Kilz, J. Drees et al., Glycosylated polyproline II rods with kinks as a structural motif in plant hydroxyproline-rich glycoproteins, Biochemistry, vol.40, pp.2978-2987, 2001.

V. Fleury, Un possible lien entre la croissance dendritique en physique et la morphogenèse des plantes, C. R. Acad. Sci. Paris Ser. III Sci. Vie, vol.322, pp.725-734, 1999.

G. L. Floyd, K. D. Stewart, and K. R. Mattox, Cytokinesis and plasmodesmata in Ulothrix, J. Phycol, vol.7, pp.306-309

H. J. Folse and J. Roughgarden, What is an individual organism? A multilevel selection perspective, Q. Rev. Biol, vol.85, pp.447-472, 2010.

, Frontiers in Plant Science | www.frontiersin.org, vol.13, p.871, 2018.

G. Forgacs and S. A. Newman, Biological Physics of the Developing Embryo, 2005.

T. W. Fraser and B. E. Gunning, The ultrastructure of plasmodesmata in the filamentous green alga, Bulbochaete hiloensis (Nordst.) tiffany. Planta, vol.88, pp.244-254, 1969.

C. Furusawa and K. Kaneko, Origin of multicellular organisms as an inevitable consequence of dynamical systems, Anat. Rec, vol.268, pp.327-342, 2002.

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

J. Gardiner, The evolution and diversification of plant microtubuleassociated proteins, Plant J, vol.75, pp.219-229, 2013.

J. J. Garrett, M. J. Meets, M. T. Blackshaw, L. C. Blackshaw, H. Hou et al., A novel, semi-dominant allele of MONOPTEROS provide insight into leaf initiation and vein pattern formation, Planta, vol.236, pp.297-312, 2012.

R. Gaudioso-pedraza and Y. Benitez-alfonso, A phylogenetic approach to study the origin and evolution of plasmodesmata-localized glycosyl hydrolases family 17, Front. Plant Sci, vol.5, p.212, 2014.

N. Geldner, Cell polarity in plants-A PARspective on PINs, Curr. Opin. Plant Biol, vol.12, pp.42-48, 2009.

L. E. Graham, J. M. Graham, and L. W. Wilcox, Algae, 2nd Edn, 2009.

K. J. Green, G. I. Viamontes, and D. L. Kirk, Mechanism of formation, ultrastructure and function of the cytoplasmic bridge system during morphogenesis in Volvox, J. Cell Biol, vol.91, pp.756-769, 1981.

S. Green and R. Batterman, Biology meets physics: reductionism and multi-scale modeling of morphogenesis, Stud. Hist. Philos. Biol. Biomed. Sci, vol.61, pp.20-34, 2017.

R. K. Grosberg and R. Strathmann, The evolution of multicellularity: a minor major transition?, Annu. Rev. Ecol. Evol. Syst, vol.38, pp.621-654, 2007.

D. Guenoune-gelbart, M. Elbaum, G. Sagi, A. Levy, and B. L. Epel, Tobacco mosaic virus (TMV) replicase and movement protein function synergistically in facilitating TMV spread by lateral diffusion in the plasmodesmal desmotubule of Nicotiana benthamiana, Mol. Plant Microbe Interact, vol.21, pp.335-345, 2008.

J. M. Guseman, J. S. Lee, N. L. Bogenschutz, K. M. Peterson, R. E. Virata et al., Dysregulation of cell-to-cell connectivity and stomatal patterning by loss-of-function mutation in Arabidopsis CHORUS (GLUCAN SYNTHASE-LIKE 8), Development, vol.137, pp.1731-1741, 2010.

J. D. Hall, R. M. Mccourt, and C. F. Delwiche, Patterns of cell division in the filamentous Desmidiaceae, close green algal relatives of land plants, Am. J. Bot, vol.95, pp.643-654, 2008.

X. Han, T. K. Hyun, M. Zhang, R. Kumar, E. J. Koh et al., Auxin-callose-mediated plasmodesmal gating is essential for tropic auxin gradient formation and signaling, Dev. Cell, vol.28, pp.132-146, 2014.

V. Hernández-hernández, K. J. Niklas, S. A. Newman, and M. Benítez, , 2012.

, Dynamical patterning modules in plant development and evolution, Int. J. Dev. Biol, vol.56, pp.661-674

M. D. Herron, R. E. Michod, H. J. Hoops, I. Nishii, and D. L. Kirk, Evolution of complexity in the volvocine algae: transitions in individuality through Darwin's eye, Madame Curie Bioscience Database, vol.62, pp.436-451, 2000.

R. J. Horst, H. Fujita, J. S. Lee, A. L. Rychel, J. M. Garrick et al., Molecular framework of a regulatory circuit initiating two-dimensional spatial patterning of stomatal lineage, PLoS Genet, vol.11, p.1005374, 2015.

K. Ishizaki, Evolution of land plants: insights from molecular studies on basal lineages, Biosci. Biotechnol. Biochem, vol.81, pp.73-80, 2017.

H. Kato, R. Nishihama, D. Weijers, and T. Kohchi, Evolution of nuclear auxin signaling: lessons from genetic studies with basal land plants, J. Exp. Bot, vol.69, pp.291-301, 2017.

S. A. Kauffman, Metabolic stability and epigenesis in randomly constructed genetic nets, J. Theor. Biol, vol.22, pp.437-467, 1969.

M. Khasin, R. R. Cahoon, K. W. Nickerson, and W. R. Riekhof, Molecular machinery of auxin synthesis, secretion, and perception in the unicellular chlorophyte alga Chlorella sorokiniana UTEX 1230, 2017.

K. Kiontke, A. Barriere, I. Kolotuev, B. Podbilewicz, R. Sommer et al., Trends, stasis, and drift in the evolution of nematode vulva development, Curr. Biol, vol.17, pp.1925-1937, 2007.
URL : https://hal.archives-ouvertes.fr/hal-00200635

D. L. Kirk, A twelve-step program for evolving multicellularity and a division of labor, Bioessays, vol.27, pp.299-310, 2005.

M. Kitagawa and T. Fujita, Quantitative imaging of directional transport through plasmodesmata in moss protonemata via single-cell photoconversion of Dendra2, J. Plant Res, vol.126, pp.577-585, 2013.

A. Knoll, The multiple origins of complex multicellularity, Annu. Rev. Earth Planet. Sci, vol.39, pp.217-239, 2011.

U. Kutschera and K. J. Niklas, Endosymbiosis, cell evolution, and speciation, Theory Biosci, vol.124, pp.1-24, 2005.

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

U. Kutschera and K. J. Niklas, Macroevolution via secondary endosymbiosis: a Neo-Goldschmidtian view of unicellular hopeful monsters and Darwin's primordial intermediate form, Theory Biosci, vol.127, pp.277-289, 2008.

M. Kwiatkowska, Plasmodesmal coupling and cell differentiation in algae, Plasmodesmata: Structure, Function, Role in Cell Communication, 1999.

D. T. Lamport, M. J. Kieliszewski, Y. Chen, and M. C. Cannon, Role of the extension superfamily in primary cell wall architecture, Plant Physiol, vol.156, pp.11-19, 2011.

H. Levine, B. , and E. , Physical schemata underlying biological pattern formation-examples, issues and strategies, Phys. Biol, vol.1, pp.14-22, 2004.

W. I. Lucas, B. Ding, . Van-der, and C. Schoot, Plasmodesmata and the supracellular nature of plants, New Phytol, vol.125, pp.435-476, 1993.

E. J. Lund, Bioelectric Fields and Growth, 1947.

M. Majda, P. Grones, I. Sinton, T. Vain, P. Milani et al., Mechanochemical polarization of contiguous cell walls shapes plant pavement cells, Dev. Cell, vol.43, pp.290-304, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02620806

H. J. Marchant, Plasmodesmata in algae and fungi, Intercellular Communication in Plants: Studies on Plasmodesmata, pp.59-78, 1976.

G. R. Mcghee, Theoretical Morphology: The Concept and Its Applications, 1999.

D. Menzel, The role of the cytoskeleton in polarity and morphogenesis of algal cells, Curr. Opin. Cell Biol, vol.1, pp.80046-80055, 1996.

E. M. Meyerowitz, Plants compared to animals: the broadest comparative study of development, Science, vol.295, pp.1482-1485, 2002.

A. Minelli, Plant Evolutionary Developmental Biology: The Evolvability of the Phenotype, 2018.

M. Van-cauwelaert, E. Del-angel, A. Antonio, J. Benítez, M. Azpeitia et al., Development of cell differentiation in the transition to multicellularity: a dynamical modeling approach, Front. Microbiol, vol.6, p.603, 2015.

G. B. Müller and S. A. Newman, Generation, integration, autonomy: three steps in the evolution in homology, in Homology, vol.222, pp.65-73, 1999.

M. Nahmad and A. D. Lander, Spatiotemporal mechanisms of morphogen gradient interpretation, Curr. Opin. Genet. Dev, vol.21, pp.726-731, 2011.

, Frontiers in Plant Science | www.frontiersin.org

S. A. Newman, The developmental specificity of physical mechanisms, Ludus Vitalis, vol.19, pp.343-351, 2011.

S. A. Newman, Physico-genetic determinants in the evolution of development, Science, vol.338, pp.217-219, 2012.

S. A. Newman, Biogeneric' developmental processes: drivers of major transitions in animal evolution, Philos. Trans. R. Soc. Lond. B Biol. Sci, vol.371, 2016.

S. A. Newman, Multicellularity, the emergence of animal body plans, and the stabilizing role of the egg, Multicellularity: Origins and Evolution, pp.225-246, 2016.

S. A. Newman, , 2017.

S. A. Newman and R. Bhat, Dynamical patterning modules: physicogenetic determinants of morphological development and evolution, Phys. Biol, vol.5, p.15008, 2008.

S. A. Newman and R. Bhat, Dynamical patterning modules: a "pattern language" for development and evolution of multicellular form, Int. J. Dev. Biol, vol.53, pp.693-705, 2009.

S. A. Newman, R. Bhat, and N. V. Mezentseva, Cell state switching factors and dynamical patterning modules: complementary mediators of plasticity in development and evolution, J. Biosci, vol.34, pp.553-572, 2009.

S. A. Newman and K. J. Niklas, Dynamical patterning modules link genotypes to morphological phenotypes in multicellular evolution, Cells in Evolutionary Biology, pp.235-266, 2018.

K. J. Niklas, Mechanical behavior of plant tissues as inferred from the theory of pressurized cellular solids, Am. J. Bot, vol.76, pp.411-438, 1989.

K. J. Niklas, The evolutionary-developmental origins of multicellularity, Am. J. Bot, vol.101, pp.6-25, 2014.

K. J. Niklas, Size-dependent variation in plant form, Curr. Biol, vol.27, pp.853-909, 2017.

K. J. Niklas, S. E. Bondos, A. K. Dunker, and S. A. Newman, Rethinking gene regulatory network theory in light of alternative splicing, intrinsically disordered protein domains, and post-translational modifications, Front. Cell Dev. Biol, vol.3, p.8, 2015.

K. J. Niklas, E. D. Cobb, C. , and D. R. , The evo-devo of multicellular cells, tissues and organisms, and an alternative route to multicellularity, Evol. Dev, vol.15, pp.466-474, 2013.

K. J. Niklas, E. D. Cobb, and A. K. Dunker, The number of cell types, information content, and the evolution of multicellularity, Acta Soc. Bot. Pol, vol.83, pp.337-347, 2014.

K. J. Niklas, A. K. Dunker, Y. , and I. , The evolutionary origins of cell type diversification and the role of intrinsically disordered proteins, J. Exp. Bot, vol.69, pp.1427-1446, 2018.

K. J. Niklas and D. R. Kaplan, Biomechanics and the adaptive significance of multicellularity in plants, Proceedings of the Fourth International Congress of Systematics and Evolutionary Biology: The Unity of Evolutionary Biology, pp.489-502, 1991.

K. J. Niklas and S. A. Newman, The origins of multicellular organisms, Evol. Dev, vol.15, pp.41-52, 2013.

K. J. Niklas and H. Spatz, Plant Physics, 2012.

A. Peaucelle, R. Wightman, and H. Höfte, The control of growth symmetry breaking in the Arabidopsis hypocotyl, Curr. Biol, vol.25, pp.1746-1752, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01204193

L. J. Pillitteri, D. , and J. , Stomatal development in Arabidopsis, Arabidopsis Book, vol.11, p.162, 2013.

A. Prochiantz, Homeoprotein intercellular transfer, the hidden face of cell-Penetrating peptides, Methods Mol. Biol, vol.683, pp.249-257, 2011.

C. Quiñones-valles, I. Sánchez-osorio, and A. Martínez-antonio, , 2014.

, Dynamical modeling of the cell cycle and cell fate emergence in Caulobacter crescentus, PLoS One, vol.9, p.111116

N. A. Ramsay and B. J. Glover, MYB-bHLH-WD40 protein complex and the evolution of cellular diversity, Trends Plant Sci, vol.10, pp.63-70, 2005.

A. Ranjan, B. T. Townsley, Y. Ichihashi, N. R. Sinha, and R. H. Chitwood, An intracellular transcriptomic atlas of the giant coenocyte Caulerpa taxifolia, PLoS Genet, vol.11, p.1004900, 2015.

J. A. Raven, Miniview: multiple origins of plasmodesmata, Eur. J. Phycol, vol.32, pp.95-101, 1997.

A. Rokas, Evolution: different paths to the same end, Nature, vol.443, pp.401-402, 2006.

Y. L. Ruan, S. M. Xu, R. White, and R. T. Furbank, Genotypic and developmental evidence for the role of plasmodesmatal regulation in cotton fiber elongation mediated by callose turnover, Plant Physiol, vol.136, pp.4104-4113, 2004.

R. Sager and J. Y. Lee, Plasmodesmata in integrated cell signalling: insights from development and environmental signals and stresses, J. Exp. Bot, vol.65, pp.6337-6358, 2014.

I. Salazar-ciudad, S. A. Newman, and R. Solé, Phenotypic and dynamical transitions in model genetic networks. I. Emergence of patterns and genotypephenotype relationships, Evol. Dev, vol.3, pp.84-94, 2001.

E. Schaefer, K. Belcram, M. Uyttewaal, Y. Duroc, M. Goussot et al., The preprophase band of microtubules controls the robustness of division orientation in plants, Proc. Natl. Acad. Sci. U.S.A, vol.356, pp.186-189, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01606017

P. Scherp, R. Grotha, and U. Kutschera, Occurrence and phylogenetic significance of cytokinesis-related callose in green algae, bryophytes, ferns and seed plants, Plant Cell Rep, vol.20, pp.143-149, 2001.

S. Schuette, A. J. Wood, M. Geisler, J. Geisler-lee, R. Ligrone et al., Novel localization of callose in the spores of Physcomitrella patens and phylogenomics of the callose synthase gene family, Ann. Bot, vol.103, pp.749-756, 2009.

A. Sebé-pedrós, B. M. Degnan, and I. Ruiz-trillo, The origin of Metazoa: a unicellular perspective, Nat. Rev. Genet, vol.18, pp.498-512, 2017.

S. Seiler, J. , and D. , Conserved components, but distinct mechanisms for the placement and assembly of the cell division machinery in unicellular and filamentous ascomycetes, Mol. Microbiol, vol.78, pp.1058-1076, 2010.

S. J. Shbailat, A. , and E. , The wing-patterning network in the wingless castes of Myrmicine and Formicine ant species is a mix of evolutionarily labile and non-labile genes, J. Exp. Zool. B Mol. Dev. Evol, vol.320, pp.74-83, 2013.

K. Shin, V. C. Fogg, and B. Margolis, Tight junctions and cell polarity, Annu. Rev. Cell Dev. Biol, vol.22, pp.207-235, 2006.

E. J. Sideman and D. C. Scheirer, Some fine structural observations on developing and mature sieve elements in the brown alga Laminaria saccharina, Am. J. Bot, vol.64, pp.649-657, 1977.

S. Sinha and S. Sridhar, Patterns in Excitable Media: Genesis, Dynamics, and Control, 2015.

R. J. Sommer, Evolution of regulatory networks: nematode vulva induction as an example of developmental systems drift, Adv. Exp. Med. Biol, vol.751, pp.79-91, 2012.

M. S. Stanley, R. M. Perry, and J. A. Callow, Analysis of expressed sequence tags (ESTs) from the green alga Ulva linza (Chlorophyta), J. Phycol, vol.41, pp.1219-1226, 2005.

K. D. Stewart, K. R. Mattox, and G. L. Floyd, Mitosis, cytokinesis, the distribution of plasmodesmata, and other cytological characteristics in the Ulotrichales, Ulvales, and Chaetophorales: phylogenetic and taxonomic considerations, J. Phycol, vol.9, pp.128-141, 1973.

A. Stolfi, E. K. Lowe, C. Racioppi, F. Ristoratore, C. T. Brown et al., Divergent mechanisms regulate conserved cardiopharyngeal development and gene expression in distantly related ascidians, vol.3, p.3728, 2014.

M. Sumper and A. Hallmann, Biochemistry of the extracellular matrix of Volvox, Int. Rev. Cytol, vol.180, pp.51-85, 1998.

J. Swift, I. L. Ivanovska, A. Buxboim, T. Harada, P. C. Dingal et al., Nuclear lamin-A scales with tissue stiffness and enhances matrixdirected differentiation, Science, vol.341, p.1240104, 2013.

R. Thomas, Regulatory networks seen as asynchronous automata: a logical description, J. Theor. Biol, vol.153, pp.1-23, 1991.

K. U. Torii, Two-dimensional spatial patterning in developmental systems, Trends Cell Biol, vol.22, pp.438-446, 2012.

J. R. True and E. S. Haag, Developmental system drift and flexibility in evolutionary trajectories, Evol. Dev, vol.3, pp.109-119, 2001.

A. E. Tsong, B. B. Tuch, H. Li, J. , and A. D. , Evolution of alternative transcriptional circuits with identical logic, Nature, vol.443, pp.415-420, 2006.

S. Tylewicz, A. Petterle, S. Marttila, P. Miskolczi, A. Azeez et al., Photoperiodic control of seasonal growth is mediated by ABA acting on cell-cell communication, Science, vol.360, pp.212-214, 2018.

S. L. Urbanus, A. P. Martinelli, Q. D. Dinh, L. C. Aizza, M. C. Dornelas et al., Intercellular transport of epidermis-expressed MADS domain transcription factors and their effect on plant morphology and floral transition, Plant J, vol.63, pp.60-72, 2010.

A. Vatén, J. Dettmer, S. Wu, Y. D. Stierhof, S. Miyashima et al., Callose biosynthesis regulates symplastic trafficking during root development, Dev. Cell, vol.21, pp.1144-1155, 2011.

F. Vergara-silva, L. Martínez-castilla, and E. R. Alvarez-buylla, MADSbox genes: development and evolution of plant body plans, J. Phycol, vol.36, pp.803-812, 2000.

R. Wayne, Plant Cell Biology, 2009.

B. Xoconostle-cazares, X. Yu, R. Ruiz-medrano, H. L. Wang, J. Monzer et al., Plant paralog to viral movement protein that potentiates transport of mRNA into the phloem, Science, vol.283, pp.94-98, 1999.

I. Yruela, C. J. Oldfield, K. J. Niklas, and A. K. Dunker, Evidence for a strong correlation between transcription factor protein disorder and organismic complexity, Genome Biol. Evol, vol.9, pp.1248-1265, 2017.

E. Za?ímalová, A. S. Murphy, H. Yang, K. Hoyerová, and P. Ho?ek, Auxin transporters-why so many? Cold Spring Harb, Perspect. Biol, vol.2, p.1552, 2010.

X. Zhang, M. Facette, J. A. Humphries, Z. Shen, Y. Park et al., Identification of PAN2 by quantitative proteomics as a leucine-rich repeat-receptor-like kinase acting upstream of PAN1 to polarize cell division in maize, Plant Cell, vol.24, pp.4577-4589, 2012.