Computer-vision analysis of seedling responses to light and gravity.
about
The iPlant Collaborative: Cyberinfrastructure for Plant BiologyMathematical models light up plant signalingAdvanced imaging techniques for the study of plant growth and developmentDifferential growth at the apical hook: all roads lead to auxinDaily changes in temperature, not the circadian clock, regulate growth rate in Brachypodium distachyonHigh-throughput computer vision introduces the time axis to a quantitative trait map of a plant growth response.Analysis of Arabidopsis thaliana root growth kinetics with high temporal and spatial resolutionAutomated analysis of hypocotyl growth dynamics during shade avoidance in Arabidopsis.Unifying model of shoot gravitropism reveals proprioception as a central feature of posture control in plants.High-throughput quantification of root growth using a novel image-analysis tool.Joining forces: the interface of gravitropism and plastid protein import.Jasmonoyl-L-Tryptophan Disrupts IAA Activity through the AUX1 Auxin Permease.Morphological Plant Modeling: Unleashing Geometric and Topological Potential within the Plant SciencesUsing flatbed scanners to collect high-resolution time-lapsed images of the arabidopsis root gravitropic response.Automated motion estimation of root responses to sucrose in two Arabidopsis thaliana genotypes using confocal microscopy.Detection of a gravitropism phenotype in glutamate receptor-like 3.3 mutants of Arabidopsis thaliana using machine vision and computationThe RootScope: a simple high-throughput screening system for quantitating gene expression dynamics in plant roots.Separate functions for nuclear and cytoplasmic cryptochrome 1 during photomorphogenesis of Arabidopsis seedlingsHigh-throughput phenotyping of multicellular organisms: finding the link between genotype and phenotype.Molecular mechanisms of root gravity sensing and signal transduction.Time-Lapse Imaging to Examine the Growth Kinetics of Arabidopsis Seedlings in Response to Ethylene.Striking the Right Chord: Signaling Enigma during Root Gravitropism.Spatio-temporal analysis of development of basal roots of common bean (Phaseolus vulgaris L.).Over-expression of AtEXLA2 alters etiolated arabidopsis hypocotyl growth.Root growth of Nicotiana attenuata is decreased immediately after simulated leaf herbivore attack.A spatio-temporal understanding of growth regulation during the salt stress response in Arabidopsis.AUXIN UP-REGULATED F-BOX PROTEIN1 regulates the cross talk between auxin transport and cytokinin signaling during plant root growth.KymoRod: a method for automated kinematic analysis of rod-shaped plant organs.The Next Generation of Training for Arabidopsis Researchers: Bioinformatics and Quantitative Biology.Constitutive Expression of Arabidopsis SMALL AUXIN UP RNA19 (SAUR19) in Tomato Confers Auxin-Independent Hypocotyl Elongation.Block of ATP-binding cassette B19 ion channel activity by 5-nitro-2-(3-phenylpropylamino)-benzoic acid impairs polar auxin transport and root gravitropism.Dynamic infrared imaging analysis of apical hook development in Arabidopsis: the case of brassinosteroids.AtLAZY1 is a signaling component required for gravitropism of the Arabidopsis thaliana inflorescence.Space-time analysis of gravitropism in etiolated Arabidopsis hypocotyls using bioluminescence imaging of the IAA19 promoter fusion with a destabilized luciferase reporter.A high-throughput imaging system to quantitatively analyze the growth dynamics of plant seedlings.Plasticity of Arabidopsis root gravitropism throughout a multidimensional condition space quantified by automated image analysis.HYPOTrace: image analysis software for measuring hypocotyl growth and shape demonstrated on Arabidopsis seedlings undergoing photomorphogenesis.Separating the roles of acropetal and basipetal auxin transport on gravitropism with mutations in two Arabidopsis multidrug resistance-like ABC transporter genes.Nuclear phytochrome A signaling promotes phototropism in Arabidopsis.Distribution of Endogenous NO Regulates Early Gravitropic Response and PIN2 Localization in Arabidopsis Roots.
P2860
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P2860
Computer-vision analysis of seedling responses to light and gravity.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Computer-vision analysis of seedling responses to light and gravity.
@en
Computer-vision analysis of seedling responses to light and gravity.
@nl
type
label
Computer-vision analysis of seedling responses to light and gravity.
@en
Computer-vision analysis of seedling responses to light and gravity.
@nl
prefLabel
Computer-vision analysis of seedling responses to light and gravity.
@en
Computer-vision analysis of seedling responses to light and gravity.
@nl
P1433
P1476
Computer-vision analysis of seedling responses to light and gravity
@en
P2093
Brian M Parks
Nathan D Miller
P304
P356
10.1111/J.1365-313X.2007.03237.X
P577
2007-08-16T00:00:00Z