High-throughput analysis of protein NMR spectra

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## Abstract We describe here new versions of the DEPT phase‐encoded HMQC experiment that offer robust performance and improved sensitivity. The new sequences rely on frequency‐swept proton and carbon pulses to minimize signal losses from miscalibrated pulses while providing ‘J compensation’ to opti

## Abstract This article describes new versions of the DEPT phase‐edited heteronuclear single quantum correlation (HSQC) pulse sequence with sensitivity enhancement. The sequences incorporate frequency‐swept carbon and proton pulses. The new experiments are inherently robust, well‐suited for a high

Background: Activation-induced protein phosphorylation can be studied by Western blotting, but this method is time consuming and depends on the use of radioactive probes for quantitation. We present a novel assay for the assessment of protein phosphorylation based on latex particles and flow cytomet

## Abstract Two new pulse sequences are presented for the acquisition of DEPT–HMQC spectra, based on the original experiment of Kessler __et al.__ The new sequences employ modifications intended to make the experiment well suited for high‐throughput acquisition and automated analysis. The sequences