Unifying model of shoot gravitropism reveals proprioception as a central feature of posture control in plants.
about
Emerging Trends in Molecular Interactions between Plants and the Broad Host Range Fungal Pathogens Botrytis cinerea and Sclerotinia sclerotiorumThermodynamical journey in plant biologyIntegrative biomechanics for tree ecology: beyond wood density and strengthMechanosensitive channels: feeling tension in a world under pressureMechanosensitive control of plant growth: bearing the load, sensing, transducing, and respondingAnother brick in the cell wall: biosynthesis dependent growth modelIn a green frame of mind: perspectives on the behavioural ecology and cognitive nature of plants.A unifying modeling of plant shoot gravitropism with an explicit account of the effects of growthInclination not force is sensed by plants during shoot gravitropism.Gravity sensing, a largely misunderstood trigger of plant orientated growthStochastic processes in gravitropismMechanical modelling quantifies the functional importance of outer tissue layers during root elongation and bending.A unified model of shoot tropism in plants: photo-, gravi- and Propio-ceptionThe effect of impedance to root growth on plant architecture in wheatThe Kinematics of Plant Nutation Reveals a Simple Relation between Curvature and the Orientation of Differential Growth.Beyond the sine law of plant gravitropism.A force of nature: molecular mechanisms of mechanoperception in plants.How do roots elongate in a structured soil?Plant biomechanics and mechanobiology are convergent paths to flourishing interdisciplinary research.The sporangiophore of Phycomyces blakesleeanus: a tool to investigate fungal gravireception and graviresponses.Novel imaging-based phenotyping strategies for dissecting crosstalk in plant development.Tree shoot bending generates hydraulic pressure pulses: a new long-distance signal?How do plants read their own shapes?The foundations of plant intelligence.Arabidopsis Myosins XI1, XI2, and XIK Are Crucial for Gravity-Induced Bending of Inflorescence Stems.Dynamic protoneural networks in plants: a new approach of spontaneous extracellular potential variations.Hybrid vertex-midline modelling of elongated plant organs.Growth-mediated plant movements: hidden in plain sight.KymoRod: a method for automated kinematic analysis of rod-shaped plant organs.On the growth and form of shoots.An Automated Confocal Micro-Extensometer Enables in Vivo Quantification of Mechanical Properties with Cellular Resolution.Feeling stretched or compressed? The multiple mechanosensitive responses of wood formation to bending.Space-time analysis of gravitropism in etiolated Arabidopsis hypocotyls using bioluminescence imaging of the IAA19 promoter fusion with a destabilized luciferase reporter.Coupled ultradian growth and curvature oscillations during gravitropic movement in disturbed wheat coleoptiles.Regulation of organ straightening and plant posture by an actin-myosin XI cytoskeleton.
P2860
Q26749504-32DB4E46-8E27-4FBE-B526-0D6F4FE143CDQ26801627-C1D46969-D470-4685-9A98-0015493B8F57Q26862518-68E713AD-0E9D-4F01-8FFC-68B30DC4D323Q27001636-E068B6DC-9ACF-4E64-99DF-8B5FB092DD92Q28087712-C439BC18-2323-4AF6-B5D9-BA0E2112D975Q28533523-904D1FCF-D371-42AB-AE55-DC99345DFEE2Q30418032-81ECFE4D-6197-4B0E-B8B2-CC59D725E083Q30576707-5A95A38B-05B8-4646-9A67-8958D184E082Q30822620-B7A1E252-E2D7-435B-8B85-9DF32ACD391AQ34454545-28DDD34B-6AF0-4872-BB1B-9C6818D9FC43Q34575527-3E8D71AA-930E-41F5-9A2E-EC9F688D0B59Q34854606-AD9F816D-04C3-4F7B-9579-D5204228CA08Q35563374-F5E7C1F2-49D3-46B8-BDFC-4CC612CC5A25Q35872176-D2DEFF6E-6E2B-496F-9CAC-F758DA7EED4DQ36214255-FD4098AC-B91A-48F1-9E78-941924226584Q36535103-3CA3F7CF-48DA-4EE5-97DA-85D7A4D45006Q37280982-E80CCCF6-9783-40F6-ABE2-68608BD8EDEEQ38138550-FC48471B-A96E-4398-A7EA-DFB34620329BQ38160188-D86300BD-13CB-486E-89D4-257EC32DCDE7Q38174227-6C72FB5E-E6C7-42F8-B538-E38A3AC0F84DQ38515034-E5CA0F2D-EDF3-4E8F-86E7-29EC1EFE19E4Q38828631-2A04FF95-7DC6-4B91-B71F-BB723C25BFB2Q38929500-56CAA169-A640-4C3D-9F1E-83F3BCF54158Q39289619-058C79F4-85A1-40A0-B376-2CE5B92E586BQ39576268-8162B475-0B0E-44B8-91D4-AE09265BF85BQ41901278-C8033055-F334-4C53-A48A-509A00ED879DQ42342821-61D312EA-9BF9-4B1F-8A81-31D65AC741D7Q46027893-8973AB3E-41EE-4C4C-B0C7-35163A568291Q46525888-E943C088-CFCE-4FE1-B0DE-32AF1B435857Q47919714-B543BFDD-51DF-43AA-BD2C-B441B850CD56Q48048246-D8C17549-F443-4C16-8B7B-815D365304EAQ49651809-1985BA08-4CB1-4BBE-A45B-8A22D2610C28Q50736582-EEA9075C-6CE6-4A24-975B-AE9E00F7499EQ51143871-49788202-7E76-48EA-8A80-810A4376C59AQ51727166-A3121307-2AF8-4862-8E7C-CF1F1EE68913
P2860
Unifying model of shoot gravitropism reveals proprioception as a central feature of posture control in plants.
description
2012 nî lūn-bûn
@nan
2012 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Unifying model of shoot gravit ...... of posture control in plants.
@ast
Unifying model of shoot gravit ...... of posture control in plants.
@en
type
label
Unifying model of shoot gravit ...... of posture control in plants.
@ast
Unifying model of shoot gravit ...... of posture control in plants.
@en
prefLabel
Unifying model of shoot gravit ...... of posture control in plants.
@ast
Unifying model of shoot gravit ...... of posture control in plants.
@en
P2860
P356
P1476
Unifying model of shoot gravit ...... of posture control in plants.
@en
P2093
Bruno Moulia
Renaud Bastien
P2860
P304
P356
10.1073/PNAS.1214301109
P407
P577
2012-12-11T00:00:00Z