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Reactive oxygen species tune root tropic responsesRoots Withstanding their Environment: Exploiting Root System Architecture Responses to Abiotic Stress to Improve Crop ToleranceSpatiotemporal dynamics of the electrical network activity in the root apex.Growth and changes of endogenous hormones of mulberry roots in a simulated rocky desertification area.Role of cytokinin and auxin in shaping root architecture: regulating vascular differentiation, lateral root initiation, root apical dominance and root gravitropismDie for living better: plants modify root system architecture through inducing PCD in root meristem under severe water stressA gene essential for hydrotropism in roots.Where's the water? Hydrotropism in plantsAn altered hydrotropic response (ahr1) mutant of Arabidopsis recovers root hydrotropism with cytokinin.Skewing in Arabidopsis roots involves disparate environmental signaling pathways.The relationship between root hydraulics and scion vigour across Vitis rootstocks: what role do root aquaporins play?Commentary: Rapid Phosphoproteomic Effects of Abscisic Acid (ABA) on Wild-Type and ABA Receptor-Deficient A. thaliana Mutants.Soil conditions and cereal root system architecture: review and considerations for linking Darwin and Weaver.Quantification of curvature production in cylindrical organs, such as roots and hypocotyls.Salt-avoidance tropism in Arabidopsis thaliana.Overexpression of MIZU-KUSSEI1 enhances the root hydrotropic response by retaining cell viability under hydrostimulated conditions in Arabidopsis thaliana.How do Arabidopsis roots differentiate hydrotropism from gravitropism?The foundations of plant intelligence.Root hydrotropism and thigmotropism in Arabidopsis thaliana are differentially controlled by redox status.How amyloplasts, water deficit and root tropisms interact?Striking the Right Chord: Signaling Enigma during Root Gravitropism.The Transcription Factor NIN-LIKE PROTEIN7 Controls Border-Like Cell Release.Root resource foraging: does it matter?A test for hydrotropic behavior by roots of two coastal dune shrubs.Cambial pinning relates wood anatomy to ecophysiology in the African tropical tree Maesopsis eminii.Casparian bands and suberin lamellae in exodermis of lateral roots: an important trait of roots system response to abiotic stress factors.Are plants sentient?Further insights into the role of NIN-LIKE PROTEIN 7 (NLP7) in root cap cell release.Comparative analysis of Arabidopsis ecotypes reveals a role for brassinosteroids in root hydrotropism.MIZ1, an essential protein for root hydrotropism, is associated with the cytoplasmic face of the endoplasmic reticulum membrane in Arabidopsis root cells.Rooting characteristics of two widely distributed woody plant species growing in different karst habitats of southwest ChinaA possible involvement of autophagy in amyloplast degradation in columella cells during hydrotropic response of Arabidopsis rootsA Novel Plant Root Foraging Algorithm for Image Segmentation Problems
P2860
Q27319564-97C5A9C3-D853-4CF5-9046-0257619471BDQ28070109-D8114AC1-79F2-44D4-9C62-5A5458005E25Q30486504-39115B6B-0D9E-49B5-9BDC-B2DF655EDC24Q31049534-ECC2BA1A-BACD-4CB8-870A-F8893422C5AAQ33342096-506091DE-CE13-4446-954D-C5CBA316D5C8Q33350240-5BA18C51-80F0-4D72-98D7-7EFC0C0DBE28Q35663488-E8B821C8-9474-41A8-AF59-E3BAEE54D526Q35721248-B228B324-855D-4E62-BD59-878714EBF7B9Q36073518-5538D7D8-56AD-48B2-99FB-5AE42639A14DQ36265288-8C96FE94-0CC2-4D49-9E3C-42B00DBFA173Q36418186-47317032-E9B7-4BD8-950E-E5900BD65CE4Q37104522-5C5C534C-03A6-4058-86E3-28A777FE9668Q38090604-1FB1861B-5349-445B-A467-2FD7E72A7EF3Q38940510-93726CDA-E070-40B4-BF8A-2EEC95328E22Q39177388-EA813E82-4EBE-415B-B400-E85732ED62E8Q39256010-EA2AEEF6-3D47-40E0-BDE8-C319AB7A6A9FQ39256017-53FE7118-55E4-4A55-BB93-4E43311B9211Q39289619-1F33A230-1891-440F-A0EE-20E3B56B7FEFQ39363099-641B08DB-780F-4EF7-AA3E-A55D59142085Q39363105-396BB452-AD96-4C63-ACFF-5CE381B1F6D4Q39466978-9EF4B3C0-24F1-420A-8480-BF526575221BQ39738837-3A1C94C9-D440-41E9-9D88-409B9FD31362Q41883543-A3DE15FA-3FC3-4769-A878-FB8361109DEAQ44374096-C4500D31-FEFB-480A-8E90-A0FD99C35C74Q46250250-346EB15E-B665-441A-863A-E2996A5D8C7DQ46352512-D748AC70-1F30-47B6-BB6A-EBFEC576D5D9Q47194611-F99D002C-E750-4A94-B1D3-3444E6DCD4BFQ47319770-E74540F2-DC3C-4D26-8BCE-292582ACA2B9Q50035005-5394E82A-328D-40A9-BFE2-FF4C83247025Q50503531-1DC00E84-7C2A-42B9-A4E4-8DEEC252EEC0Q57648348-BC9C25AD-DA5C-4C3E-9059-488B37C0773DQ57745289-5D64D458-43D1-4D03-BA7F-90C346CE5C52Q59067530-A685AE56-CB2A-4CAF-94DA-424FBE8FA6E2
P2860
description
2005 nî lūn-bûn
@nan
2005 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Hydrotropism: root growth responses to water.
@ast
Hydrotropism: root growth responses to water.
@en
type
label
Hydrotropism: root growth responses to water.
@ast
Hydrotropism: root growth responses to water.
@en
prefLabel
Hydrotropism: root growth responses to water.
@ast
Hydrotropism: root growth responses to water.
@en
P2093
P1476
Hydrotropism: root growth responses to water.
@en
P2093
Delfeena Eapen
Georgina Ponce
Gladys I Cassab
María E Campos
María L Barroso
P356
10.1016/J.TPLANTS.2004.11.004
P577
2005-01-01T00:00:00Z