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AI-designed NMR spectroscopy RF pulses for fast acquisition at high and ultra-high magnetic fields

V. S. Manu, Cristina Olivieri, Gianluigi Veglia

2023Nature Communications28 citationsDOIOpen Access PDF

Abstract

Abstract Nuclear magnetic resonance (NMR) spectroscopy is a powerful high-resolution tool for characterizing biomacromolecular structure, dynamics, and interactions. However, the lengthy longitudinal relaxation of the nuclear spins significantly extends the total experimental time, especially at high and ultra-high magnetic field strengths. Although longitudinal relaxation-enhanced techniques have sped up data acquisition, their application has been limited by the chemical shift dispersion. Here we combined an evolutionary algorithm and artificial intelligence to design 1 H and 15 N radio frequency (RF) pulses with variable phase and amplitude that cover significantly broader bandwidths and allow for rapid data acquisition. We re-engineered the basic transverse relaxation optimized spectroscopy experiment and showed that the RF shapes enhance the spectral sensitivity of well-folded proteins up to 180 kDa molecular weight. These RF shapes can be tailored to re-design triple-resonance experiments for accelerating NMR spectroscopy of biomacromolecules at high fields.

Topics & Concepts

Nuclear magnetic resonance spectroscopySpectroscopySpinsRelaxation (psychology)Nuclear magnetic resonanceRadio frequencyMaterials scienceTransverse relaxation-optimized spectroscopyMagnetic fieldComputational physicsPhysicsComputer scienceFluorine-19 NMRCondensed matter physicsTelecommunicationsQuantum mechanicsPsychologySocial psychologyAdvanced NMR Techniques and ApplicationsProtein Structure and DynamicsElectron Spin Resonance Studies
AI-designed NMR spectroscopy RF pulses for fast acquisition at high and ultra-high magnetic fields | Litcius