| Literature DB >> 28603039 |
David Schulze-Sünninghausen1, Johanna Becker2, Martin R M Koos2, Burkhard Luy3.
Abstract
Previously we introduced two novel NMR experiments for small molecules, the so-called ASAP-HSQC and ALSOFAST-HSQC (Schulze-Sünninghausen et al., 2014), which allow the detection of heteronuclear one-bond correlations in less than 30s at natural abundance. We propose an improved symmetrized pulse scheme of the basic experiment to minimize artifact intensities and the combination with non-uniform sampling to enable the acquisition of conventional HSQC spectra in as short as a couple of seconds and extremely 13C-resolved spectra in less than ten minutes. Based on steady state investigations, a first estimate to relative achievable signal intensities with respect to conventional, ASAP-, and ALSOFAST-HSQC experiments is given. In addition, we describe several extensions to the basic pulse schemes, like a multiplicity-edited version, a revised symmetrized CLIP-ASAP-HSQC, an ASAP-/ALSOFAST-HSQC sequence with broadband BIRD-based 1H,1H decoupling, and a symmetrized sequence optimized for water suppression. Finally, RF-power considerations with respect to the high duty cycle of the experiments are given.Entities:
Keywords: ASAP; BIRD; Broadband homouclear decoupling; CLIP; Coupling constants; Fast NMR experiments; HSQC; Non-uniform sampling; Polarization recovery; Shaped pulses; Steady state signal intensities; Water diluted samples
Year: 2017 PMID: 28603039 DOI: 10.1016/j.jmr.2017.05.012
Source DB: PubMed Journal: J Magn Reson ISSN: 1090-7807 Impact factor: 2.229