Spin-echo based diagonal peak suppression in solid-state MAS NMR homonuclear chemical shift correlation spectra

Kaiyu Wang; Zhiyong Zhang; Xiaoyan Ding; Fang Tian; Yuqing Huang; Zhong Chen; Riqiang Fu

doi:10.1016/j.jmr.2017.12.019

Spin-echo based diagonal peak suppression in solid-state MAS NMR homonuclear chemical shift correlation spectra

Kaiyu Wang
, Zhiyong Zhang
, Xiaoyan Ding
, Fang Tian
, Yuqing Huang
, Zhong Chen
, Riqiang Fu

Department of Molecular and Precision Medicine

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

The feasibility of using the spin-echo based diagonal peak suppression method in solid-state MAS NMR homonuclear chemical shift correlation experiments is demonstrated. A complete phase cycling is designed in such a way that in the indirect dimension only the spin diffused signals are evolved, while all signals not involved in polarization transfer are refocused for cancellation. A data processing procedure is further introduced to reconstruct this acquired spectrum into a conventional two-dimensional homonuclear chemical shift correlation spectrum. A uniformly ¹³C, ¹⁵N labeled Fmoc-valine sample and the transmembrane domain of a human protein, LR11 (sorLA), in native Escherichia coli membranes have been used to illustrate the capability of the proposed method in comparison with standard ¹³C–¹³C chemical shift correlation experiments.

Original language	English (US)
Pages (from-to)	91-98
Number of pages	8
Journal	Journal of Magnetic Resonance
Volume	287
DOIs	https://doi.org/10.1016/j.jmr.2017.12.019
State	Published - Feb 2018

All Science Journal Classification (ASJC) codes

Biophysics
Biochemistry
Nuclear and High Energy Physics
Condensed Matter Physics

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10.1016/j.jmr.2017.12.019

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title = "Spin-echo based diagonal peak suppression in solid-state MAS NMR homonuclear chemical shift correlation spectra",

abstract = "The feasibility of using the spin-echo based diagonal peak suppression method in solid-state MAS NMR homonuclear chemical shift correlation experiments is demonstrated. A complete phase cycling is designed in such a way that in the indirect dimension only the spin diffused signals are evolved, while all signals not involved in polarization transfer are refocused for cancellation. A data processing procedure is further introduced to reconstruct this acquired spectrum into a conventional two-dimensional homonuclear chemical shift correlation spectrum. A uniformly 13C, 15N labeled Fmoc-valine sample and the transmembrane domain of a human protein, LR11 (sorLA), in native Escherichia coli membranes have been used to illustrate the capability of the proposed method in comparison with standard 13C–13C chemical shift correlation experiments.",

author = "Kaiyu Wang and Zhiyong Zhang and Xiaoyan Ding and Fang Tian and Yuqing Huang and Zhong Chen and Riqiang Fu",

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T1 - Spin-echo based diagonal peak suppression in solid-state MAS NMR homonuclear chemical shift correlation spectra

AU - Wang, Kaiyu

AU - Zhang, Zhiyong

AU - Ding, Xiaoyan

AU - Tian, Fang

AU - Huang, Yuqing

AU - Chen, Zhong

AU - Fu, Riqiang

PY - 2018/2

Y1 - 2018/2

N2 - The feasibility of using the spin-echo based diagonal peak suppression method in solid-state MAS NMR homonuclear chemical shift correlation experiments is demonstrated. A complete phase cycling is designed in such a way that in the indirect dimension only the spin diffused signals are evolved, while all signals not involved in polarization transfer are refocused for cancellation. A data processing procedure is further introduced to reconstruct this acquired spectrum into a conventional two-dimensional homonuclear chemical shift correlation spectrum. A uniformly 13C, 15N labeled Fmoc-valine sample and the transmembrane domain of a human protein, LR11 (sorLA), in native Escherichia coli membranes have been used to illustrate the capability of the proposed method in comparison with standard 13C–13C chemical shift correlation experiments.

AB - The feasibility of using the spin-echo based diagonal peak suppression method in solid-state MAS NMR homonuclear chemical shift correlation experiments is demonstrated. A complete phase cycling is designed in such a way that in the indirect dimension only the spin diffused signals are evolved, while all signals not involved in polarization transfer are refocused for cancellation. A data processing procedure is further introduced to reconstruct this acquired spectrum into a conventional two-dimensional homonuclear chemical shift correlation spectrum. A uniformly 13C, 15N labeled Fmoc-valine sample and the transmembrane domain of a human protein, LR11 (sorLA), in native Escherichia coli membranes have been used to illustrate the capability of the proposed method in comparison with standard 13C–13C chemical shift correlation experiments.

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EP - 98

JO - Journal of Magnetic Resonance

JF - Journal of Magnetic Resonance

ER -

Spin-echo based diagonal peak suppression in solid-state MAS NMR homonuclear chemical shift correlation spectra

Abstract

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