Gravity sensing and signal transduction in vascular plant primary roots, American Journal of Botany, vol.100, pp.126-142, 2013. ,
Root gravitropism is regulated by a transient lateral auxin gradient controlled by a tipping-point mechanism, Proceedings of the National Academy of Sciences, vol.109, pp.4668-4673, 2012. ,
URL : https://hal.archives-ouvertes.fr/cea-00848570
,
, , 2014.
Gravisensors in plant cells behave like an active granular liquid, Proceedings of the National Academy of Sciences, vol.115, pp.5123-5128, 2018. ,
Gravitropic responses of the Avena coleoptile in space and on clinostats. I. Gravitropic response thresholds, Physiologia Plantarum, vol.95, pp.27-33, 1995. ,
A novel sensor to map auxin response and distribution at high spatio-temporal resolution, Nature, vol.482, pp.103-106, 2012. ,
Gravitropism in a starchless mutant of arabidopsis, Planta, vol.177, pp.185-197, 1989. ,
, , 2016.
Data from: Revealing the hierarchy of processes and time scales that control the tropic response of shoots to gravi-stimulations, 2019. ,
Gravisensitivity and automorphogenesis of lentil seedling roots grown on board the International Space Station, Physiologia Plantarum, vol.134, pp.191-201, 2008. ,
Beyond the sine law of plant gravitropism, Proceedings of the National Academy of Sciences, vol.110, pp.391-392, 2013. ,
Lateral relocation of auxin efflux regulator PIN3 mediates tropism in Arabidopsis, Nature, vol.415, pp.806-809, 2002. ,
Tropisms of Avena coleoptiles: sine law for gravitropism, exponential law for photogravitropic equilibrium, Planta, vol.215, pp.779-784, 2002. ,
Gravitropism in phycomyces and threshold determination on a clinostat and centrifuge, Journal of Plant Physiology, vol.161, pp.733-739, 2004. ,
Physical hydrodynamics, 2015. ,
ARL2, ARG1 and PIN3 define a gravity signal transduction pathway in root statocytes, The Plant Journal, vol.53, pp.380-392, 2008. ,
Plant tropisms and other growth movements, 1992. ,
Gravitropism of maize and rice coleoptiles: dependence on the stimulation angle, Plant, Cell & Environment, vol.19, pp.1160-1168, 1996. ,
Amyloplasts are necessary for full gravitropic sensitivity in roots of Arabidopsis thaliana, Planta, vol.177, pp.198-206, 1989. ,
Gravity-induced PIN transcytosis for polarization of auxin fluxes in gravitysensing root cells, Proceedings of the National Academy of Sciences, vol.107, pp.22344-22349, 2010. ,
The development and of geotropic and spontaneous and curvatures in roots, Physiologia Plantarum, vol.10, pp.127-163, 1957. ,
The optimum angle of geotropic stimulation and its relation to the starch statolith hypothesis, Physiologia Plantarum, vol.22, pp.469-488, 1969. ,
, Statolith sediPhysiology, vol.139, pp.1030-1040, 2009.
Contribution of both cell elongation and cell division to wheat coleotile elongation, Belgian Journal of Botany, vol.139, pp.167-172, 2006. ,
Directional gravity sensing in gravitropism, Annual Review of Plant Biology, vol.61, pp.705-720, 2010. ,
Mechanosensitive control of plant growth: bearing the load, sensing, transducing, and responding, Frontiers in Plant Science, vol.6, p.52, 2015. ,
URL : https://hal.archives-ouvertes.fr/hal-01123388
The power and control of gravitropic movements in plants: a biomechanical and systems biology view, Journal of Experimental Botany, vol.60, pp.461-486, 2009. ,
URL : https://hal.archives-ouvertes.fr/hal-00964501
Analysis of growth patterns during grav, 1986. ,
,
, Minireview the dose-response curve of the gravitropic reaction: a re-analy, 2002.
, Physiologia Plantarum, vol.114, pp.336-342
La perception geotropique dans la coiffe des racines de lentille, Physiologia Plantarum, vol.37, pp.42-48, 1976. ,
Auxin-induced K + channel expression represents an essential step in coleoptile growth and gravitropism, Proceedings of the National Academy of Sciences, USA 96, pp.12186-12191, 1999. ,
A new scenario for gravity detection in plants: the position sensor hypothesis, Physical Biology, vol.14, p.35005, 2017. ,
URL : https://hal.archives-ouvertes.fr/hal-01425608
Polarization of PIN3-dependent auxin transport for hypocotyl gravitropic response in Arabidopsis thaliana, The Plant Journal, vol.67, pp.817-826, 2011. ,
Lectures on the physiology of plants, p.836, 1887. ,
Reciprocity in the activation of geotropism in oat coleoptiles grown on clinostats, Planta, vol.92, pp.152-163, 1970. ,
Molecular mechanisms of root gravity sensing and signal transduction, WIRES Developmental Biology, vol.1, pp.276-285, 2012. ,
A functional TOC complex contributes to gravity signal transduction in Arabidopsis, Frontiers in Plant Science, vol.5, p.148, 2014. ,
Molecular mechanisms of root gravitropism, Current Biology, vol.27, pp.964-972, 2017. ,
The Arabidopsis LAZY1 family plays a key role in gravity signaling within statocytes and in branch angle control of roots and shoots, The Plant Cell, vol.29, 1984. ,
Gravitropism and mechanical signaling in plants, American Journal of Botany, vol.100, pp.111-125, 2013. ,
scikitimage: image processing in python, PeerJ, vol.2, p.453, 2014. ,
URL : https://hal.archives-ouvertes.fr/hal-01071542
Growth and cellular differentiation in the wheat coleoptile (Triticum vulgare l.): I. Estimation of cell number, cell volume, and certain nitrogenous constituents, Journal of Experimental Botany, vol.12, pp.303-318, 1961. ,