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QCL–IR Spectroscopy for In-Line Monitoring of Proteins from Preparative Ion-Exchange Chromatography

Christopher K. Akhgar, Julian Ebner, Oliver Spadiut, Andreas Schwaighofer, Bernhard Lendl

2022Analytical Chemistry22 citationsDOIOpen Access PDF

Abstract

, covering the most important spectral region for protein secondary structure determination. A significant challenge was caused by the overlapping mid-IR bands of proteins and changes in the background absorption of water due to the NaCl gradient. Implementation of advanced background compensation strategies resulted in high-quality protein spectra in three different model case studies. In Case I, a reference blank run was directly subtracted from a sample run with the same NaCl gradient. Case II and III included sample runs with different gradient profiles than the one from the reference run. Here, a novel compensation approach based on a reference spectra matrix was introduced, where the signal from the conductivity detector was employed for correlating suitable reference spectra for correction of the sample run spectra. With this method, a single blank run was sufficient to correct various gradient profiles. The obtained IR spectra of hemoglobin and β-lactoglobulin were compared to off-line reference measurements, showing excellent agreement for all case studies. Moreover, the concentration values obtained from the mid-IR spectrometer agreed well with conventional UV detectors and high-performance liquid chromatography off-line measurements. LC-QCL-IR coupling thus holds high potential for replacing laborious and time-consuming off-line methods for protein monitoring in complex downstream processes.

Topics & Concepts

ChemistrySpectral lineAnalytical Chemistry (journal)Infrared spectroscopyIon chromatographySpectrometerOptical pathSpectroscopyChromatographyOpticsPhysicsOrganic chemistryQuantum mechanicsAstronomySpectroscopy and Chemometric AnalysesAnalytical Chemistry and ChromatographySpectroscopy and Laser Applications