Abstract
Pseudo-3D HSQC0 provides an alternative and easy way to record and analyze quantitative HSQC0-data. In the original time-zero extrapolated 1H-13C HSQC (HSQC0), three separate 2D constant-time (CT) HSQC-experiments (HSQCi, i=1-3) are acquired, where either 1,2 or 3 consecutive CT-HSQC-propagators are repeated in each pulse sequence, and the 2D integral data from the three 2D experiments is analyzed via linear regression. In the presented pseudo-3D HSQC0, HSQCi is one of the dimensions and all data is contained within one dataset, which is recorded in interleaved manner by acquiring the same t1-value for each HSQCi-point before t1-incrementation. The 3D-nature of the data allows the utilization of backward linear prediction to calculate an actual time-zero 2D HSQC0 spectrum, which can be analyzed using normal 2D integration procedures for quantitative results. In all, the pseudo-3D enables straightforward, intuitive and easy analysis of the quantitative 2D HSQC0 spectrum/plane. As the recorded pseudo 3D data contains the normal HSQCi planes, also the classic linear regression analysis can be applied.
Published Version
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