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Comparison of methods for 14N-1H recoupling in 14N-1H HMQC MAS NMR

Ben P. Tatman, Haritosh Modha, Steven P. Brown

2023Journal of Magnetic Resonance16 citationsDOIOpen Access PDF

Abstract

1H-detected 14N heteronuclear multiple-quantum coherence (HMQC) magic-angle-spinning (MAS) NMR experiments performed at fast magic-angle spinning (≥50 kHz) are finding increasing application, e.g., to pharmaceuticals. Of importance to the efficacy of these techniques is the recoupling technique applied to reintroduce the 1H-14N dipolar coupling. In this paper, we compare, by experiment and 2-spin density matrix simulations, two classes of recoupling scheme: first, those based on n = 2 rotary resonance, namely R3 and spin-polarisation inversion SPI-R3, and the symmetry based SR412 method and, second, the TRAPDOR method. Both classes require optimisation depending on the magnitude of the quadrupolar interaction, and thus there is a compromise choice for samples with more than one nitrogen site, as is the case for the studied dipeptide β-AspAla that contains two nitrogen sites with a small and large quadrupolar coupling constant. Considering this, we observe better sensitivity for the TRAPDOR method, though noting the marked sensitivity of TRAPDOR to the 14N transmitter offset, with both SPI-R3 and SR412 giving similar recoupling performance.

Topics & Concepts

Heteronuclear moleculeChemistryMagic angle spinningCoupling constantNuclear magnetic resonanceSolid-state nuclear magnetic resonanceSpinningQuadrupoleMagic angleMagnetic dipole–dipole interactionDipoleMolecular physicsNuclear magnetic resonance spectroscopyAnalytical Chemistry (journal)Atomic physicsPhysicsStereochemistryQuantum mechanicsOrganic chemistryChromatographyPolymer chemistryAdvanced NMR Techniques and ApplicationsElectron Spin Resonance StudiesSolid-state spectroscopy and crystallography
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