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Revealing the local proton network through Three-Dimensional 13C/1H Double-Quantum/1H Single-Quantum and 1H Double-Quantum/13C/1H Single-Quantum correlation fast Magic-Angle spinning Solid-State NMR spectroscopy at natural abundance

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dc.contributor.author Malon, M.
dc.contributor.author Pandey, M. K.
dc.contributor.author Nishiyama, Y.
dc.date.accessioned 2021-10-07T21:33:36Z
dc.date.available 2021-10-07T21:33:36Z
dc.date.issued 2021-10-08
dc.identifier.uri http://localhost:8080/xmlui/handle/123456789/2935
dc.description.abstract 1 H double quantum (DQ)/1 H single quantum (SQ) correlation solid-state NMR spectroscopy is widely used to obtain internuclear 1 H−1 H proximities, especially at fast magicangle spinning (MAS) rate (>60 kHz). However, to date, 1 H signals are not well-resolved because of intense 1 H−1 H homonuclear dipolar interactions even at the attainable maximum MAS frequencies of ∼100 kHz and/or under 1 H−1 H homonuclear dipolar decoupling irradiations. Here we introduce novel three-dimensional (3D) experiments to resolve the 1 H DQ/1 H SQ correlation peaks using the additional 13C dimension. Although the low natural abundance of 13C (1.1%) significantly reduces the sensitivities, the 1 H indirect measurements alleviate this issue and make this experiment possible even in naturally abundant samples. The two different implementations of 13C/1 H DQ/1 H SQ correlations and 1 H DQ/13C/1 H SQ correlations are discussed and demonstrated using L-histidine·HCl·H2O at natural abundance to reveal the local 1 H−1 H networks near each 13C. In addition, the complete 1 H resonance assignments are achieved from a single 3D 13C/1 H DQ/1 H SQ experiment. We have also demonstrated the applicability of our proposed method on a biologically relevant molecule, capsaicin. en_US
dc.language.iso en_US en_US
dc.title Revealing the local proton network through Three-Dimensional 13C/1H Double-Quantum/1H Single-Quantum and 1H Double-Quantum/13C/1H Single-Quantum correlation fast Magic-Angle spinning Solid-State NMR spectroscopy at natural abundance en_US
dc.type Article en_US


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