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Role of xyloglucan in gravitropic bending of azuki bean epicotylIKUSHIMA, Toshimitsu; SOGA, Kouichi; HOSON, Takayuki et al.Physiologia Plantarum (København. 1948). 2008, Vol 132, Num 4, pp 552-565, issn 0031-9317, 14 p.Article

The gravitropic response of poplar trunks : Key roles of prestressed wood regulation and the relative kinetics of cambial growth versus wood maturationCOUTAND, Catherine; FOURNIER, Meriem; MOULIA, Bruno et al.Plant physiology (Bethesda). 2007, Vol 144, Num 2, pp 1166-1180, issn 0032-0889, 15 p.Article

General discussion on graviresponsesCLELAND, R. E.Planta. 1997, Vol 203, pp S170-S173, issn 0032-0935, SUP1Conference Paper

Ethylene-induced opposite redistributions of calcium and auxin are essential components in the development of tomato petiolar epinastic curvatureLEE, Yew; JUNG, Jin-Woo; KIM, Seong-Ki et al.Plant physiology and biochemistry (Paris). 2008, Vol 46, Num 7, pp 685-693, issn 0981-9428, 9 p.Article

PHYTOCHROME KINASE SUBSTRATE1 : Regulates Root Phototropism and GravitropismBOCCALANDRO, Hernan E; DE SIMONE, Silvia N; BERGMANN-HONSBERGER, Ariane et al.Plant physiology (Bethesda). 2008, Vol 146, Num 1, pp 108-115, issn 0032-0889, 8 p.Article

OsEXPA4 and OsRWC3 are involved in asymmetric growth during gravitropic bending of rice leaf sheath basesLIWEI HU; DAYONG CUI; NEILL, Steven et al.Physiologia Plantarum (København. 1948). 2007, Vol 130, Num 4, pp 560-571, issn 0031-9317, 12 p.Article

Auxin fluxes in the root apex co-regulate gravitropism and lateral root initiationLUCAS, M; GODIN, C; JAY-ALLEMAND, C et al.Journal of experimental botany. 2008, Vol 59, Num 1, pp 55-66, issn 0022-0957, 12 p.Conference Paper

Gravitropic moss cells default to spiral growth on the clinostat and in microgravity during spaceflightKERN, Volker D; SCHWUCHOW, Jochen M; REED, David W et al.Planta. 2005, Vol 221, Num 1, pp 149-157, issn 0032-0935, 9 p.Article

Molecular aspects of stress-gene regulation during spaceflightPAUL, Anna-Lisa; FERL, Robert J.Journal of plant growth regulation (Print). 2002, Vol 21, Num 2, pp 166-176, issn 0721-7595, 11 p.Article

Plant growth substance 1982. Proceedings of the 11th International conference, held in Aberystwyth from 12th to 16th July, 1982WAREING, P. F.International conference on plant growth substances. 11. 1982, 683 p.: ill, isbn 0-12-735380-1Conference Proceedings

Gravity sensing and signaling : Cell biologyTERAO MORITA, Miyo; TASAKA, Masao.Current opinion in plant biology. 2004, Vol 7, Num 6, pp 712-718, issn 1369-5266, 7 p.Article

The cytoskeleton and gravitropism in higher plantsBLANCAFLOR, Elison B.Journal of plant growth regulation (Print). 2002, Vol 21, Num 2, pp 120-136, issn 0721-7595, 17 p.Article

The Role of Brassinosteroids in Shoot GravitropismVANDENBUSSCHE, Filip; SUSLOV, Dmitry; DE GRAUWE, Liesbeth et al.Plant physiology (Bethesda). 2011, Vol 156, Num 3, pp 1331-1336, issn 0032-0889, 6 p.Article

Auxin and cell polarity : the emergence of AXR4HOBBIE, Lawrence J.Trends in plant science. 2006, Vol 11, Num 11, pp 517-518, issn 1360-1385, 2 p.Article

Optospectroscopic detection of primary reactions associated with the graviperception of Phycomyces. Effects of micro- and hypergravitySCHMIDT, Werner; GALLAND, Paul.Plant physiology (Bethesda). 2004, Vol 135, Num 1, pp 183-192, issn 0032-0889, 10 p.Article

A polarized cell: the root statocyteDRISS-ECOLE, Dominique; LEFRANC, Agnes; PERBAL, Gérald et al.Physiologia Plantarum (København. 1948). 2003, Vol 118, Num 3, pp 305-312, issn 0031-9317, 8 p.Article

Perception de la gravité par les plantes et expérimentation spatiale = Gravity perception by plants and space experimentationPERBAL, G; DRISS-ECOLE, D.La Vie des sciences. 1994, Vol 11, Num 3, pp 163-176, issn 0762-0969Article

How to activate a plant gravireceptor. Early mechanisms of gravity sensing studied in characean rhizoids during parabolic flightsLIMBACH, Christoph; HAUSLAGE, Jens; SCHÄFER, Claudia et al.Plant physiology (Bethesda). 2005, Vol 139, Num 2, pp 1030-1040, issn 0032-0889, 11 p.Article

Mechanosensing and thigmomorphogenesis, a physiological and biomechanical point of viewCOUTAND, Catherine.Plant science (Limerick). 2010, Vol 179, Num 3, pp 168-182, issn 0168-9452, 15 p.Article

Physiological interactions of antiauxins with auxin in rootsYINGCHUN ZHAO; HASENSTEIN, Karl H.Journal of plant physiology. 2010, Vol 167, Num 11, pp 879-884, issn 0176-1617, 6 p.Article

The response to gravity is correlated with the number of statoliths in Chara rhizoidsKISS, J. Z.Plant physiology (Bethesda). 1994, Vol 105, Num 3, pp 937-940, issn 0032-0889Article

Characterization of plant phenotypes associated with loss-of-function of AtCNGC1, a plant cyclic nucleotide gated cation channelWEI MA; ALI, Rashid; BERKOWITZ, Gerald A et al.Plant physiology and biochemistry (Paris). 2006, Vol 44, Num 7-9, pp 494-505, issn 0981-9428, 12 p.Article

The microtubule associated protein END BINDING 1 represses root responses to mechanical cuesGLEESON, Laura; SQUIRES, Shannon; BISGROVE, Sherryl R et al.Plant science (Limerick). 2012, Vol 187, pp 1-9, issn 0168-9452, 9 p.Article

ARL2, ARG1 and PIN3 define a gravity signal transduction pathway in root statocytesHARRISON, Benjamin R; MASSON, Patrick H.Plant journal. 2008, Vol 53, Num 2, pp 380-392, issn 0960-7412, 13 p.Article

Auxin response, but not its polar transport, plays a role in hydrotropism of Arabidopsis rootsKANEYASU, Tomoko; KOBAYASHI, Akie; NAKAYAMA, Mayumi et al.Journal of experimental botany. 2007, Vol 58, Num 5, pp 1143-1150, issn 0022-0957, 8 p.Article

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