Surveying the plant's world by magnetic resonance imaging.
about
Applications of 2-deoxy-2-fluoro-D-glucose (FDG) in Plant Imaging: Past, Present, and FutureAdvanced phenotyping and phenotype data analysis for the study of plant growth and developmentPhysical, metabolic and developmental functions of the seed coatMetabolic Architecture of the Cereal Grain and Its Relevance to Maximize Carbon Use EfficiencyEffects of the magnetic resonance imaging contrast agent Gd-DTPA on plant growth and root imaging in riceMulti-Spectroscopic Analysis of Seed Quality and 13C-Stable-Iotopologue Monitoring in Initial Growth Metabolism of Jatropha curcas L.Belowground plant development measured with magnetic resonance imaging (MRI): exploiting the potential for non-invasive trait quantification using sugar beet as a proxy.Phloem flow and sugar transport in Ricinus communis L. is inhibited under anoxic conditions of shoot or roots.Field-omics-understanding large-scale molecular data from field crops.A novel noninvasive procedure for high-throughput screening of major seed traits.A portable NMR sensor to measure dynamic changes in the amount of water in living stems or fruit and its potential to measure sap flow.Direct comparison of MRI and X-ray CT technologies for 3D imaging of root systems in soil: potential and challenges for root trait quantification.Magnetic resonance imaging of sugar beet taproots in soil reveals growth reduction and morphological changes during foliar Cercospora beticola infestation.Magnetic resonance imaging reveals functional anatomy and biomechanics of a living dragon tree.Natural products in Glycyrrhiza glabra (licorice) rhizome imaged at the cellular level by atmospheric pressure matrix-assisted laser desorption/ionization tandem mass spectrometry imaging.Macro optical projection tomography for large scale 3D imaging of plant structures and gene activity.Vaccinia virus-mediated melanin production allows MR and optoacoustic deep tissue imaging and laser-induced thermotherapy of cancer.An imaging method for oxygen distribution, respiration and photosynthesis at a microscopic level of resolution.Imaging heterogeneity of membrane and storage lipids in transgenic Camelina sativa seeds with altered fatty acid profiles.Studying microstructure and microstructural changes in plant tissues by advanced diffusion magnetic resonance imaging techniques.Heat girdling does not affect xylem integrity: an in vivo magnetic resonance imaging study in the tomato peduncle.A network perspective on nitrogen metabolism from model to crop plants using integrated 'omics' approaches.Modern plant metabolomics: advanced natural product gene discoveries, improved technologies, and future prospects.Fluxes through plant metabolic networks: measurements, predictions, insights and challenges.Quantitative 3D Analysis of Plant Roots Growing in Soil Using Magnetic Resonance Imaging.A noninvasive platform for imaging and quantifying oil storage in submillimeter tobacco seed.Plant phenomics: an overview of image acquisition technologies and image data analysis algorithms.Non-destructive, high-content analysis of wheat grain traits using X-ray micro computed tomography.Visualizing chemical functionality in plant cell walls.Cell-Type Specific Metabolic Flux Analysis: A Challenge for Metabolic Phenotyping and a Potential Solution in Plants.A new method for non-invasive biomass determination based on stereo photogrammetry.A functional imaging study of germinating oilseed rape seed.Plant phenomics and the need for physiological phenotyping across scales to narrow the genotype-to-phenotype knowledge gap.Seed architecture shapes embryo metabolism in oilseed rape.Dynamic processes and chemical composition of Lepidium sativum seeds determined by means of field-cycling NMR relaxometry and NMR spectroscopy.A qualitative analysis of the bud ontogeny of Dracaena marginata using high-resolution magnetic resonance imaging.High-resolution measurements in plant biology
P2860
Q26744615-48758D84-4613-4A19-B55E-B1EC7DD9AC13Q26795891-DCF2DE7A-24F6-4809-B5AB-8F2EF01323ADQ26809964-4E5260B3-DE77-43D8-B611-D887AD64672FQ27320496-A55B46B0-AF92-4CF8-81A2-98E80FB62072Q28539859-A124FDF4-E744-4F34-80A2-592E1918F71FQ30389915-79174B56-2139-4B34-B9E8-F72DBDBEFC8EQ30587055-7AD77109-1C63-4D85-BCA6-C633A05AB722Q30835187-1D4908D8-117C-4F4E-B54C-92AE6D7DB822Q30835309-4A9F0960-62A1-49DC-8199-C77EE3A6D75CQ30848699-255A1707-9C89-4802-9C66-5590E7474B37Q30884753-9A9F75F4-AA64-4B4D-8996-B01EB2AEAF32Q30910781-2C59CC7E-B8F7-4D8E-8790-F46951A59CF4Q33360492-DBEA7BD5-505D-420D-8277-D0836090AC45Q33363840-67639689-355C-45F2-B487-8CACCFD1805CQ33462312-5432AACE-5F1D-417E-BA77-1CA17E0F46CCQ33719743-8DE05EE9-89D4-4698-ACC1-38F9BFD617A8Q34327349-C95A7989-8ED6-40FD-AB98-A32672D5A3F9Q34416705-B893A3CB-A54D-4088-8D09-076B16C34DC8Q34786436-AC72A151-B0EF-469F-B946-D3EBC26B727BQ36343132-C1E4028D-84F2-471C-89A7-4DD98F3E4A3DQ36381225-39B45E36-17A4-4C56-8E67-3D50CA2FBED8Q38240413-9C373333-CE3C-4299-BD97-650BE847B4F0Q38262442-3B527124-6E94-4C1C-A485-0574A8253E22Q38336130-D441491F-B4CB-49A9-8A4E-B02BF749414AQ40146759-F5D0F8D0-53E4-4920-BE9B-44A35529E135Q44412409-9AC04945-72D5-48B1-BCE1-34D9A9B37678Q45944803-50C4573E-837A-4C2E-B258-0F5FED6466D9Q46265230-D159A338-4CD3-4FB5-8ED9-AC68213C6E40Q47097571-B584808A-F988-4DC6-AA44-D8BF3A05AC4FQ47100043-61A10E01-1782-4EF1-BFC7-4D81A0D6F9E1Q47259411-361547D1-10B6-4C80-B466-E231D44DDCCBQ47804445-976E23D1-EF73-4388-8FA5-A2F93137DA12Q48159955-82C2C17E-41FF-45D9-A793-FEC7FCC6276DQ50958727-A90D7E25-4DF4-4D44-9082-77B80C427ED6Q51320759-7B32526C-E1C3-4842-B397-B4EB72EDA398Q55502998-109A62F7-F990-49EA-9A36-9DA9C03500DFQ57184369-AB3E20AB-AF04-4D00-91A1-8869968E1375
P2860
Surveying the plant's world by magnetic resonance imaging.
description
2012 nî lūn-bûn
@nan
2012 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի ապրիլին 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
Surveying the plant's world by magnetic resonance imaging.
@ast
Surveying the plant's world by magnetic resonance imaging.
@en
Surveying the plant's world by magnetic resonance imaging.
@nl
type
label
Surveying the plant's world by magnetic resonance imaging.
@ast
Surveying the plant's world by magnetic resonance imaging.
@en
Surveying the plant's world by magnetic resonance imaging.
@nl
prefLabel
Surveying the plant's world by magnetic resonance imaging.
@ast
Surveying the plant's world by magnetic resonance imaging.
@en
Surveying the plant's world by magnetic resonance imaging.
@nl
P2860
P1433
P1476
Surveying the plant's world by magnetic resonance imaging
@en
P2093
Hardy Rolletschek
Thomas Neuberger
P2860
P304
P356
10.1111/J.1365-313X.2012.04927.X
P577
2012-04-01T00:00:00Z