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Artículos de revistas sobre el tema "NMR methods"

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Publicado: 6 de septiembre de 2023

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1

WILSON, ELIZABETH K. "NMR METHODS BLOSSOM". Chemical & Engineering News 76, n.º 39 (28 de septiembre de 1998): 25–35. http://dx.doi.org/10.1021/cen-v076n039.p025.

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2

Halkides, Christopher y Cynthia K. McClure. "12 NMR Spectroscopic methods". Annual Reports Section "B" (Organic Chemistry) 96 (2000): 497–521. http://dx.doi.org/10.1039/b006370n.

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3

Halkides, Christopher y R. Thomas Williamson. "14 NMR spectroscopic methods". Annu. Rep. Prog. Chem., Sect. B: Org. Chem. 98 (2002): 639–70. http://dx.doi.org/10.1039/b110384a.

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4

Albert, Klaus. "Books: Modern NMR methods". Analytical Chemistry 70, n.º 13 (julio de 1998): 472A—473A. http://dx.doi.org/10.1021/ac9818780.

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5

Norwood, Timothy J. "Multiple-quantum NMR methods". Progress in Nuclear Magnetic Resonance Spectroscopy 24, n.º 4 (enero de 1992): 295–375. http://dx.doi.org/10.1016/0079-6565(92)80005-z.

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6

Shapiro, Michael J. "ChemInform Abstract: NMR Methods". ChemInform 32, n.º 50 (23 de mayo de 2010): no. http://dx.doi.org/10.1002/chin.200150297.

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7

TAKEUCHI, Y. "ChemInform Abstract: NMR Methods". ChemInform 23, n.º 43 (21 de agosto de 2010): no. http://dx.doi.org/10.1002/chin.199243312.

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8

Spiess, H. W. "NMR Methods for Solid Polymers". Annual Review of Materials Science 21, n.º 1 (agosto de 1991): 131–58. http://dx.doi.org/10.1146/annurev.ms.21.080191.001023.

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9

Shapiro, Michael J. y James R. Wareing. "NMR methods in combinatorial chemistry". Current Opinion in Chemical Biology 2, n.º 3 (junio de 1998): 372–75. http://dx.doi.org/10.1016/s1367-5931(98)80011-2.

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10

Dumoulin, Charles y Howard Hart. "4714081 Methods for NMR angiography". Magnetic Resonance Imaging 6, n.º 4 (julio de 1988): IX. http://dx.doi.org/10.1016/0730-725x(88)90514-0.

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11

Halkides, Christopher y Cynthia K. McClure. "ChemInform Abstract: NMR Spectroscopic Methods". ChemInform 32, n.º 17 (24 de abril de 2001): no. http://dx.doi.org/10.1002/chin.200117277.

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12

Halkides, Christopher y Cynthia K. McClure. "ChemInform Abstract: NMR Spectroscopic Methods". ChemInform 33, n.º 20 (21 de mayo de 2010): no. http://dx.doi.org/10.1002/chin.200220300.

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13

Viti, Vincenza, Caterina Petrucci y Piero Barone. "Prony methods in NMR spectroscopy". International Journal of Imaging Systems and Technology 8, n.º 6 (1997): 565–71. http://dx.doi.org/10.1002/(sici)1098-1098(1997)8:6<565::aid-ima9>3.0.co;2-8.

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14

Massou, Stéphane, Cécile Nicolas, Fabien Letisse y Jean-Charles Portais. "NMR-based fluxomics: Quantitative 2D NMR methods for isotopomers analysis". Phytochemistry 68, n.º 16-18 (agosto de 2007): 2330–40. http://dx.doi.org/10.1016/j.phytochem.2007.03.011.

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15

Nordon, Alison, Céline Meunier, Colin A. McGill y David Littlejohn. "Comparison of Calibration Methods for the Monitoring of a Fluorobenzene Batch Reaction Using Low-Field 19F NMR, 1H NMR, NIR, and Raman Spectrometries". Applied Spectroscopy 56, n.º 4 (abril de 2002): 515–20. http://dx.doi.org/10.1366/0003702021954971.

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The suitability of different process spectrometry techniques has been assessed, in terms of calibration requirements, accuracy, and precision, for the at-line monitoring of the sulfonation of fluorobenzene. Partial least-squares (PLS) calibration was required to analyze the spectra obtained by NIR spectrometry and low-field (29.1 MHz) 1H NMR spectrometry. The low-field (27.4 MHz) 19F NMR spectra contained well-resolved signals for the three fluorine containing compounds and univariate calibration was adequate. The Raman spectra of two of the compounds exhibited fluorescence and so this technique was not considered suitable for monitoring the reaction. The accuracy of the results obtained using univariate analysis of the 19F NMR data and PLS analysis of NIR data were comparable (average % error of 3.5 and 2.9%, respectively, for concentrations >0.5 mol dm−3 and 11.3 and 11.1%, respectively, for <0.5 mol dm−3). The least accurate results were obtained using PLS analysis of low-field 1H NMR data, as the spectra of two of the components were too similar. For concentrations >0.05 mol dm−3, the most precise results were obtained with PLS analysis of NIR data (average RSD of 1.6%), although the precision of the results obtained using univariate analysis of 19F NMR data was still good (average RSD of 3.7%).
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16

Hu, Yunfei, Kai Cheng, Lichun He, Xu Zhang, Bin Jiang, Ling Jiang, Conggang Li, Guan Wang, Yunhuang Yang y Maili Liu. "NMR-Based Methods for Protein Analysis". Analytical Chemistry 93, n.º 4 (13 de enero de 2021): 1866–79. http://dx.doi.org/10.1021/acs.analchem.0c03830.

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17

Jaipuria, Garima, Adil Hayat y Hanudatta S. Atreya. "New methods for NMR spectral analysis". Journal of Analytical Science and Technology 2, Supplement A (22 de diciembre de 2011): A88—A93. http://dx.doi.org/10.5355/jast.2011.a88.

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18

Munuera-Javaloy, C., R. Puebla y J. Casanova. "Dynamical decoupling methods in nanoscale NMR". EPL (Europhysics Letters) 134, n.º 3 (1 de mayo de 2021): 30001. http://dx.doi.org/10.1209/0295-5075/ac0ed1.

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19

Furman, Gregory B., Victor M. Meerovich y Vladimir L. Sokolovsky. "NMR Methods of Quantum State Detection". Zeitschrift für Naturforschung A 62, n.º 10-11 (1 de noviembre de 2007): 620–26. http://dx.doi.org/10.1515/zna-2007-10-1110.

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The process of amplification of a single spin state using nuclear magnetic resonance (NMR) techniques in a rotating frame is considered. Our main aim is to investigate the efficiency of various schemes for quantum detection. Results of numerical simulation of the time dependence of individual and total nuclear polarizations for 1D, 2D, and 3D configurations of the spin systems are presented.
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20

Mobli, Mehdi, Mark W. Maciejewski, Adam D. Schuyler, Alan S. Stern y Jeffrey C. Hoch. "Sparse sampling methods in multidimensional NMR". Phys. Chem. Chem. Phys. 14, n.º 31 (2012): 10835–43. http://dx.doi.org/10.1039/c2cp40174f.

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21

Edgar, Mark. "Physical methods and techniques : NMR spectroscopy". Annual Reports Section "B" (Organic Chemistry) 105 (2009): 340. http://dx.doi.org/10.1039/b822068a.

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22

Grutsch, Sarina, Sven Brüschweiler y Martin Tollinger. "NMR Methods to Study Dynamic Allostery". PLOS Computational Biology 12, n.º 3 (10 de marzo de 2016): e1004620. http://dx.doi.org/10.1371/journal.pcbi.1004620.

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23

Edgar, Mark. "Physical methods and techniques NMR spectroscopy". Annual Reports Section "B" (Organic Chemistry) 108 (2012): 292. http://dx.doi.org/10.1039/c2oc90013k.

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24

Watson, A. Ted y C. T. Philip Chang. "Characterizing porous media with NMR methods". Progress in Nuclear Magnetic Resonance Spectroscopy 31, n.º 4 (noviembre de 1997): 343–86. http://dx.doi.org/10.1016/s0079-6565(97)00053-8.

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25

Pecher, Oliver, Javier Carretero-González, Kent J. Griffith y Clare P. Grey. "Materials’ Methods: NMR in Battery Research". Chemistry of Materials 29, n.º 1 (28 de noviembre de 2016): 213–42. http://dx.doi.org/10.1021/acs.chemmater.6b03183.

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26

Lönnqvist, Ingrid, Ali Khan y Olle Söderman. "Characterization of emulsions by NMR methods". Journal of Colloid and Interface Science 144, n.º 2 (julio de 1991): 401–11. http://dx.doi.org/10.1016/0021-9797(91)90406-x.

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27

Shimba, Nobuhisa, Helena Kovacs, Alan S. Stern, Anson M. Nomura, Ichio Shimada, Jeffrey C. Hoch, Charles S. Craik y Volker Dötsch. "Optimization of13C direct detection NMR methods". Journal of Biomolecular NMR 30, n.º 2 (octubre de 2004): 175–79. http://dx.doi.org/10.1023/b:jnmr.0000048855.35771.11.

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28

Edgar, Mark. "Physical methods and techniques: NMR spectroscopy". Annual Reports Section "B" (Organic Chemistry) 109 (2013): 256. http://dx.doi.org/10.1039/c3oc90012f.

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29

Edgar, Mark. "Physical methods and techniques: NMR spectroscopy". Annual Reports Section "B" (Organic Chemistry) 107 (2011): 308. http://dx.doi.org/10.1039/c1oc90006d.

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30

Edgar, M. "Physical methods and techniques : NMR spectroscopy". Annual Reports Section "B" (Organic Chemistry) 103 (2007): 331. http://dx.doi.org/10.1039/b617867g.

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31

Edgar, Mark. "Physical methods and techniques NMR spectroscopy". Annual Reports Section "B" (Organic Chemistry) 106 (2010): 325. http://dx.doi.org/10.1039/b927074b.

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32

Edgar, Mark. "Physical methods and techniques : NMR spectroscopy". Annual Reports Section "B" (Organic Chemistry) 104 (2008): 312. http://dx.doi.org/10.1039/b801271g.

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33

Nagana Gowda, G. A. y Daniel Raftery. "NMR Metabolomics Methods for Investigating Disease". Analytical Chemistry 95, n.º 1 (10 de enero de 2023): 83–99. http://dx.doi.org/10.1021/acs.analchem.2c04606.

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34

Norwood, T. J. "New NMR Methods for Measuring Diffusion". Journal of Magnetic Resonance, Series A 103, n.º 3 (julio de 1993): 258–67. http://dx.doi.org/10.1006/jmra.1993.1165.

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35

Singerman, R. W. y R. C. Richardson. "Methods for Heteronuclear Thin-Film NMR". Journal of Magnetic Resonance, Series A 123, n.º 2 (diciembre de 1996): 168–73. http://dx.doi.org/10.1006/jmra.1996.0231.

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36

Furó, István y Sergey V. Dvinskikh. "NMR methods applied to anisotropic diffusion". Magnetic Resonance in Chemistry 40, n.º 13 (8 de noviembre de 2002): S3—S14. http://dx.doi.org/10.1002/mrc.1123.

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37

NORWOOD, T. J. "ChemInform Abstract: Multiple-Quantum NMR Methods". ChemInform 24, n.º 19 (20 de agosto de 2010): no. http://dx.doi.org/10.1002/chin.199319308.

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38

Maity, Sanhita, Ravi Kumar Gundampati y Thallapuranam Krishnaswamy Suresh Kumar. "NMR Methods to Characterize Protein-Ligand Interactions". Natural Product Communications 14, n.º 5 (1 de mayo de 2019): 1934578X1984929. http://dx.doi.org/10.1177/1934578x19849296.

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Structural information pertaining to the interactions between biological macromolecules and ligands is of potential significance for understanding of molecular mechanisms in key biological processes. Recently, nuclear magnetic resonance (NMR) spectroscopic techniques has come of age and has widened its scope to characterize binding interactions of small molecules with biological macromolecules especially, proteins. NMR spectroscopy-based techniques are versatile due to their ability to examine weak binding interactions and for rapid screening the binding affinities of ligands with proteins at atomic resolution. In this review, we provide a broad overview of some of the important NMR approaches to investigate interactions of small organic molecules with proteins.
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39

Akoka, Serge y Patrick Giraudeau. "Fast hybrid multi-dimensional NMR methods based on ultrafast 2D NMR". Magnetic Resonance in Chemistry 53, n.º 11 (31 de marzo de 2015): 986–94. http://dx.doi.org/10.1002/mrc.4237.

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40

Matera, Robert, Katalin V. Horvath, Hari Nair, Ernst J. Schaefer y Bela F. Asztalos. "HDL Particle Measurement: Comparison of 5 Methods". Clinical Chemistry 64, n.º 3 (1 de marzo de 2018): 492–500. http://dx.doi.org/10.1373/clinchem.2017.277632.

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Abstract BACKGROUND HDL cell cholesterol efflux capacity has been documented as superior to HDL cholesterol (HDL-C) in predicting cardiovascular disease risk. HDL functions relate to its composition. Compositional assays are easier to perform and standardize than functional tests and are more practical for routine testing. Our goal was to compare measurements of HDL particles by 5 different separation methods. METHODS HDL subfractions were measured in 98 samples using vertical auto profiling (VAP), ion mobility (IM), nuclear magnetic resonance (NMR), native 2-dimensional gel electrophoresis (2D-PAGE), and pre-β1-ELISA. VAP measured cholesterol in large HDL2 and small HDL3; IM measured particle number directly in large, intermediate, and small HDL particles; NMR measured lipid signals in large, medium, and small HDL; 2D-PAGE measured apolipoprotein (apo) A-I in large (α1), medium (α2), small (α3–4), and pre-β1 HDL particles; and ELISA measured apoA-I in pre-β1-HDL. The data were normalized and compared using Passing–Bablok, Lin concordance, and Bland–Altman plot analyses. RESULTS With decreasing HDL-C concentration, NMR measured a gradually lower percentage of large HDL, compared with IM, VAP, and 2D-PAGE. In the lowest HDL-C tertile, NMR measured 8% of large HDL, compared with IM, 22%; VAP, 20%; and 2D-PAGE, 18%. There was strong discordance between 2D-PAGE and NMR in measuring medium HDL (R2 = 0.356; rc = 0.042) and small HDL (R2 = 0.376; rc = 0.040). The 2D-PAGE assay measured a significantly higher apoA-I concentration in pre-β1-HDL than the pre-β1-ELISA (9.8 vs 1.6 mg/dL; R2 = 0.246; rc = 0.130). CONCLUSIONS NMR agreed poorly with the other methods in measuring large HDL, particularly in low HDL-C individuals. Similarly, there was strong discordance in pre-β1-HDL measurements between the ELISA and 2D-PAGE assays.
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41

Mobli, Mehdi, Mark W. Maciejewski, Adam D. Schuyler, Alan S. Stern y Jeffrey C. Hoch. "Correction: Sparse sampling methods in multidimensional NMR". Physical Chemistry Chemical Physics 18, n.º 28 (2016): 19482. http://dx.doi.org/10.1039/c6cp90157c.

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42

Zartler, Edward, Jiangli Yan, Huaping Mo, Allen Kline y Michael Shapiro. "1D NMR Methods in Ligand-Receptor Interactions". Current Topics in Medicinal Chemistry 3, n.º 1 (1 de enero de 2003): 25–37. http://dx.doi.org/10.2174/1568026033392750.

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43

Ludwig, Christian. "Ligand based NMR methods for drug discovery". Frontiers in Bioscience Volume, n.º 14 (2009): 4565. http://dx.doi.org/10.2741/3549.

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44

Chao, Fa-An y R. Andrew Byrd. "Protein dynamics revealed by NMR relaxation methods". Emerging Topics in Life Sciences 2, n.º 1 (20 de abril de 2018): 93–105. http://dx.doi.org/10.1042/etls20170139.

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Structural biology often focuses primarily on three-dimensional structures of biological macromolecules, deposited in the Protein Data Bank (PDB). This resource is a remarkable entity for the worldwide scientific and medical communities, as well as the general public, as it is a growing translation into three-dimensional space of the vast information in genomic databases, e.g. GENBANK. There is, however, significantly more to understanding biological function than the three-dimensional co-ordinate space for ground-state structures of biomolecules. The vast array of biomolecules experiences natural dynamics, interconversion between multiple conformational states, and molecular recognition and allosteric events that play out on timescales ranging from picoseconds to seconds. This wide range of timescales demands ingenious and sophisticated experimental tools to sample and interpret these motions, thus enabling clearer insights into functional annotation of the PDB. NMR spectroscopy is unique in its ability to sample this range of timescales at atomic resolution and in physiologically relevant conditions using spin relaxation methods. The field is constantly expanding to provide new creative experiments, to yield more detailed coverage of timescales, and to broaden the power of interpretation and analysis methods. This review highlights the current state of the methodology and examines the extension of analysis tools for more complex experiments and dynamic models. The future for understanding protein dynamics is bright, and these extended tools bring greater compatibility with developments in computational molecular dynamics, all of which will further our understanding of biological molecular functions. These facets place NMR as a key component in integrated structural biology.
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45

Haase, J., N. J. Curro, R. Stern y C. P. Slichter. "New Methods for NMR of Cuprate Superconductors". Physical Review Letters 81, n.º 7 (17 de agosto de 1998): 1489–92. http://dx.doi.org/10.1103/physrevlett.81.1489.

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46

Kanelis, Voula, Julie D. Forman-Kay y Lewis E. Kay. "Multidimensional NMR Methods for Protein Structure Determination". IUBMB Life (International Union of Biochemistry and Molecular Biology: Life) 52, n.º 6 (1 de diciembre de 2001): 291–302. http://dx.doi.org/10.1080/152165401317291147.

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47

Harper, James y Giovanna Pope. "Obtaining anisotropic atomic displacements from NMR methods". Acta Crystallographica Section A Foundations and Advances 75, a1 (20 de julio de 2019): a306. http://dx.doi.org/10.1107/s0108767319097009.

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48

Webba da Silva, Mateus. "NMR methods for studying quadruplex nucleic acids". Methods 43, n.º 4 (diciembre de 2007): 264–77. http://dx.doi.org/10.1016/j.ymeth.2007.05.007.

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49

Shapiro, M. J. y J. S. Gounarides. "NMR methods utilized in combinatorial chemistry research". Progress in Nuclear Magnetic Resonance Spectroscopy 35, n.º 2 (agosto de 1999): 153–200. http://dx.doi.org/10.1016/s0079-6565(99)00008-4.

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50

Ebbels, Timothy M. D. y Rachel Cavill. "Bioinformatic methods in NMR-based metabolic profiling". Progress in Nuclear Magnetic Resonance Spectroscopy 55, n.º 4 (noviembre de 2009): 361–74. http://dx.doi.org/10.1016/j.pnmrs.2009.07.003.

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