Literature DB >> 9716473

Application of the filter diagonalization method to one- and two-dimensional NMR spectra

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Abstract

A new non-Fourier data processing algorithm, the filter diagonalization method (FDM), is presented and applied to phase-sensitive 1D and 2D NMR spectra. FDM extracts parameters (peak positions, linewidths, amplitudes, and phases) directly from the time-domain data by fitting the data to a sum of damped complex sinusoids. Grounded in a quantum-mechanical formalism, FDM shares some of the features of linear prediction and other linear algebraic approaches, but is numerically more efficient, scaling like the fast Fourier transform algorithm with respect to data size, and has the ability to correctly handle spectra with thousands or even millions of lines where the competing methods break down. Results obtained on complex spectra are promising. Copyright 1998 Academic Press.

Year:  1998        PMID: 9716473     DOI: 10.1006/jmre.1998.1476

Source DB:  PubMed          Journal:  J Magn Reson        ISSN: 1090-7807            Impact factor:   2.229


  21 in total

1.  Enhanced sensitivity by nonuniform sampling enables multidimensional MAS NMR spectroscopy of protein assemblies.

Authors:  Sivakumar Paramasivam; Christopher L Suiter; Guangjin Hou; Shangjin Sun; Melissa Palmer; Jeffrey C Hoch; David Rovnyak; Tatyana Polenova
Journal:  J Phys Chem B       Date:  2012-06-18       Impact factor: 2.991

2.  Iterative algorithm of discrete Fourier transform for processing randomly sampled NMR data sets.

Authors:  Jan Stanek; Wiktor Koźmiński
Journal:  J Biomol NMR       Date:  2010-04-07       Impact factor: 2.835

3.  Advances in Nuclear Magnetic Resonance for Drug Discovery.

Authors:  Robert Powers
Journal:  Expert Opin Drug Discov       Date:  2009-10-01       Impact factor: 6.098

4.  J-Spectroscopy in the presence of residual dipolar couplings: determination of one-bond coupling constants and scalable resolution.

Authors:  Julien Furrer; Michael John; Horst Kessler; Burkhard Luy
Journal:  J Biomol NMR       Date:  2007-01-19       Impact factor: 2.835

5.  Random sampling of evolution time space and Fourier transform processing.

Authors:  Krzysztof Kazimierczuk; Anna Zawadzka; Wiktor Koźmiński; Igor Zhukov
Journal:  J Biomol NMR       Date:  2006-09-21       Impact factor: 2.835

6.  Automatic assignment of protein backbone resonances by direct spectrum inspection in targeted acquisition of NMR data.

Authors:  Leo E Wong; James E Masse; Victor Jaravine; Vladislav Orekhov; Konstantin Pervushin
Journal:  J Biomol NMR       Date:  2008-09-11       Impact factor: 2.835

7.  Sensitivity gains, linearity, and spectral reproducibility in nonuniformly sampled multidimensional MAS NMR spectra of high dynamic range.

Authors:  Christopher L Suiter; Sivakumar Paramasivam; Guangjin Hou; Shangjin Sun; David Rice; Jeffrey C Hoch; David Rovnyak; Tatyana Polenova
Journal:  J Biomol NMR       Date:  2014-04-22       Impact factor: 2.835

Review 8.  Biomolecular NMR data analysis.

Authors:  Michael R Gryk; Jay Vyas; Mark W Maciejewski
Journal:  Prog Nucl Magn Reson Spectrosc       Date:  2010-05       Impact factor: 9.795

9.  Maximum Entropy Spectral Reconstruction of Non-Uniformly Sampled Data.

Authors:  Mehdi Mobli; Jeffrey C Hoch
Journal:  Concepts Magn Reson Part A Bridg Educ Res       Date:  2008-11-01       Impact factor: 0.481

Review 10.  Perspectives in magnetic resonance: NMR in the post-FFT era.

Authors:  Sven G Hyberts; Haribabu Arthanari; Scott A Robson; Gerhard Wagner
Journal:  J Magn Reson       Date:  2014-04       Impact factor: 2.229
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