Rapid access to RNA resonances by proton-detected solid-state NMR at >100 kHz MAS

Research output: Contribution to journalArticleResearchpeer review

Authors

  • Alexander Marchanka
  • Jan Stanek
  • Guido Pintacuda
  • Teresa Carlomagno

Research Organisations

External Research Organisations

  • École normale supérieure de Lyon (ENS de Lyon)
  • Helmholtz Centre for Infection Research (HZI)
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Details

Original languageEnglish
Pages (from-to)8972-8975
Number of pages4
JournalChemical communications
Volume54
Issue number65
Early online date28 Jun 2018
Publication statusPublished - 21 Aug 2018

Abstract

Fast (>100 kHz) magic angle spinning solid-state NMR allows combining high-sensitive proton detection with the absence of an intrinsic molecular weight limit. Using this technique we observe for the first time narrow 1H RNA resonances and assign nucleotide spin systems with only 200 μg of uniformly 13C,15N-labelled RNA.

ASJC Scopus subject areas

Cite this

Rapid access to RNA resonances by proton-detected solid-state NMR at >100 kHz MAS. / Marchanka, Alexander; Stanek, Jan; Pintacuda, Guido et al.
In: Chemical communications, Vol. 54, No. 65, 21.08.2018, p. 8972-8975.

Research output: Contribution to journalArticleResearchpeer review

Marchanka, A, Stanek, J, Pintacuda, G & Carlomagno, T 2018, 'Rapid access to RNA resonances by proton-detected solid-state NMR at >100 kHz MAS', Chemical communications, vol. 54, no. 65, pp. 8972-8975. https://doi.org/10.1039/c8cc04437f
Marchanka, A., Stanek, J., Pintacuda, G., & Carlomagno, T. (2018). Rapid access to RNA resonances by proton-detected solid-state NMR at >100 kHz MAS. Chemical communications, 54(65), 8972-8975. https://doi.org/10.1039/c8cc04437f
Marchanka A, Stanek J, Pintacuda G, Carlomagno T. Rapid access to RNA resonances by proton-detected solid-state NMR at >100 kHz MAS. Chemical communications. 2018 Aug 21;54(65):8972-8975. Epub 2018 Jun 28. doi: 10.1039/c8cc04437f
Marchanka, Alexander ; Stanek, Jan ; Pintacuda, Guido et al. / Rapid access to RNA resonances by proton-detected solid-state NMR at >100 kHz MAS. In: Chemical communications. 2018 ; Vol. 54, No. 65. pp. 8972-8975.
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