A Quick and Colorful Method to Measure Low-Level Contaminations of Paramagnetic Ni2+ in Protein Samples Purified by Immobilized Metal Ion Affinity Chromatography.

Abstract

Isotopic labeling of recombinantly expressed proteins is generally required for investigation by modern nuclear magnetic resonance (NMR) methods. Purification strategies of the labeled proteins often include the use of a polyhistidine affinity tag (His-tag) and immobilized metal ion affinity chromatography (IMAC). Described herein are rapid and inexpensive qualitative and quantitative assays to determine the concentration of paramagnetic Ni2+ in protein samples purified by IMAC. Both qualitative and quantitative colorimetric methods detect the amount of Ni2+ via the color change produced when a [Ni(PAR)n]2+ (PAR=4-(2-pyridylazo)resorcinol, n=1, 2) complex is formed. The qualitative assay provides a rapid visual test for the presence of Ni2+ in the low micromolar range in a sample of interest. The usefulness of the spectroscopic quantitative assay is illustrated by: (i) detecting a 12μM Ni2+ contamination in an NMR sample containing 950μM of the 7.5kDa α3W protein purified by a standard His-tag Ni2+/IMAC approach and (ii) showing that the 15N-HSQC spectrum of the α3W NMR sample, containing 1 paramagnetic Ni2+ ion per 80 protein molecules, displays clear line broadening of both water and protein spectral lines. We also (iii) measured Ni2+ release during the equilibration, wash, and elution steps of three commonly used Ni2+/IMAC resins when following manufacturer's protocols. The concentration of Ni2+ detected in elutes of the three resins ranged from 2μM to nearly 1mM.