about
Fluorine-19 MRI Contrast Agents for Cell Tracking and Lung ImagingA review of flux considerations for in vivo neurochemical measurementsThe RAS-Binding Domain of Human BRAF Protein Serine/Threonine Kinase Exhibits Allosteric Conformational Changes upon Binding HRAS13C NMR detects conformational change in the 100-kD membrane transporter ClC-ec1.Perfluorocarbon nanoparticles for physiological and molecular imaging and therapyA comparison of chemical shift sensitivity of trifluoromethyl tags: optimizing resolution in ¹⁹F NMR studies of proteins.Strategies for sensing neurotransmitters with responsive MRI contrast agents.Detection and differentiation of neutral organic compounds by 19F NMR with a tungsten calix[4]arene imido complex.¹⁹F NMR fingerprints: identification of neutral organic compounds in a molecular container¹⁹F NMR indicator displacement assay using a synthetic receptor with appended paramagnetic relaxation agent.Activatable Dendritic (19)F Probes for Enzyme Detection.Probe-Specific Procedure to Estimate Sensitivity and Detection Limits for 19F Magnetic Resonance Imaging.Simultaneous Identification of Neutral and Anionic Species in Complex Mixtures without Separation.Oxygen-Sensing Methods in Biomedicine from the Macroscale to the Microscale.What We Can Really Do with Bioresponsive MRI Contrast Agents.¹⁹F magnetic resonance probes for live-cell detection of peroxynitrite using an oxidative decarbonylation reaction.Synthesis and in vitro assessment of a bifunctional closomer probe for fluorine ((19)F) magnetic resonance and optical bimodal cellular imaging.Fluorinated Carbohydrates as Lectin Ligands: (19)F-Based Direct STD Monitoring for Detection of Anomeric Selectivity.Mesoporous silica nanoparticles for 19F magnetic resonance imaging, fluorescence imaging, and drug delivery.Multi-chromatic pH-activatable 19F-MRI nanoprobes with binary ON/OFF pH transitions and chemical-shift barcodesSpecific detection and imaging of enzyme activity by signal-amplifiable self-assembling (19)F MRI probes.EPR Oximetry Sensor-Developing a TAM Derivative for In Vivo Studies.Parallel NMR spectroscopy with simultaneous detection of (1) H and (19) F nuclei.Monitoring of reversible boronic acid-diol interactions by fluorine NMR spectroscopy in aqueous media.Investigating Protein-Ligand Interactions by Solution Nuclear Magnetic Resonance Spectroscopy.Selective radical trifluoromethylation of native residues in proteins.A molecular engineering toolbox for the structural biologist.Extending the Scope of 19F Hyperpolarization through Signal Amplification by Reversible Exchange in MRI and NMR Spectroscopy.Oxygen Sensing with Perfluorocarbon-Loaded Ultraporous Mesostructured Silica Nanoparticles.Perfluoro-tert-butyl Homoserine Is a Helix-Promoting, Highly Fluorinated, NMR-Sensitive Aliphatic Amino Acid: Detection of the Estrogen Receptor·Coactivator Protein-Protein Interaction by 19F NMR.Intriguing cellular processing of a fluorinated amino acid during protein biosynthesis in Escherichia coli.Simultaneous chirality sensing of multiple amines by (19)F NMR.Design of a hyperpolarized (15)N NMR probe that induces a large chemical-shift change upon binding of calcium ions.Characterisation and evaluation of paramagnetic fluorine labelled glycol chitosan conjugates for (19)F and (1)H magnetic resonance imaging.Fluorinated Paramagnetic Complexes: Sensitive and Responsive Probes for Magnetic Resonance Spectroscopy and Imaging.
P2860
Q27023428-C10A269E-B26C-41EF-A66E-B5F595D05C1DQ28816918-97FBE624-6F5E-4B75-AAF9-E1D4866A34B1Q28828708-C15CCDBB-A48C-4CA8-8AF4-BACCF889658CQ30359902-780C2D3E-4DDF-4C9B-808B-83649DC1E779Q30426880-259B7128-F26F-4592-B782-E274A7A23885Q30917308-80653126-0112-4845-BA7C-F9AC279648C8Q31153220-A333A6F2-DF5A-419B-A289-65CD9F4963A3Q33605519-FD48706F-D374-456E-85DC-1F423C50C207Q33998851-FAD58A99-49DD-433E-8190-58227B4F12CAQ34171532-51203206-D632-49A4-BA9A-28D76F951587Q35559859-1C6E974C-6CF5-4731-AFCD-D4A31BAC3B4AQ36160442-468CF012-C8A5-4076-934F-6E8D825FD8F2Q36999105-57DB9EAE-E727-4A78-890E-C01142FC626AQ38530352-4BF3A2CA-6F0C-44CE-B6AF-1C23E365F2EFQ38816989-A451FF57-CDAF-4181-9306-19E1A7BA6969Q38960585-FA96149E-8AEC-48AB-8927-8234F5E364D8Q39001877-A284AE26-F33B-4E0C-952D-0A98F2BC86DFQ40308066-0771D602-493F-429C-B7BC-166250A5D96FQ40970566-A3C4CB26-D11B-4E2B-A8A3-D8AC39CD0313Q42606243-633A231D-E2DF-4647-B2D6-C6A2C52133A3Q43874065-E3108AD0-3641-449A-91FF-03EA6508F693Q46176263-6EDF438F-E88A-43E5-B131-454032C025E9Q46572627-80EB9CFA-65F6-47CF-8654-A3CCC6B8D6ACQ46693011-EA0310AC-E5DA-47D8-BC89-FDEF13C6B3A4Q47218921-102BAAC4-1583-409A-88FA-C9D8159B46E7Q47232071-3C4B3C99-BEF2-48F8-81A3-A7AB3DCB3BA4Q47256792-F4727518-5BB8-4FC0-BEA2-778C0554CDA7Q47741815-8234E6BF-424E-465F-A6A1-9C2EE6B59AC2Q48143557-2A38D51B-B7F2-4156-A388-1ABEAD9137BEQ48273411-5C503800-530B-4996-901D-53E90A994635Q48312270-E0605F35-BDFA-4540-AE76-D9CEA3EE985DQ50070957-845BF484-808B-43E6-89BA-C2205527C006Q53192259-62E2FFF7-17DC-4DBC-9FA3-12814327F979Q53250477-34183329-7917-4CA6-B227-71052FEBEB1BQ55301142-444F06E2-958B-4FB0-ADC2-D41D66DF3A66
P2860
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh
2012年學術文章
@zh-hant
name
New frontiers and developing applications in 19F NMR.
@en
type
label
New frontiers and developing applications in 19F NMR.
@en
prefLabel
New frontiers and developing applications in 19F NMR.
@en
P2093
P2860
P1476
New frontiers and developing applications in 19F NMR.
@en
P2093
Jian-Xin Yu
Rami R Hallac
Srinivas Chiguru
P2860
P356
10.1016/J.PNMRS.2012.10.001
P50
P577
2012-11-02T00:00:00Z