2019
DOI: 10.1021/acs.analchem.9b00504
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Exploiting His-Tags for Absolute Quantitation of Exogenous Recombinant Proteins in Biological Matrices: Ruthenium as a Protein Tracer

Abstract: Metal labeling and ICP MS detection offer an alternative to commonly accepted techniques that are currently used to quantitate exogenous proteins in vivo, but modifying the protein surface with metal-containing groups inevitably changes its biophysical properties and is likely to affect trafficking and biodistribution. The approach explored in this work takes advantage of the presence of hexa-histidine tags in many recombinant proteins, which have high affinity toward a range of metals. While many divalent met… Show more

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Cited by 7 publications
(12 citation statements)
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“…Despite an impressive variety of various ruthenium (III) complexes observed in the ESI mass spectra acquired in aqueous solution in the presence of tris (hydroxymethyl)‐aminomethane, it is worth noting that most of these complexes have a common structural feature, ie, association of two tris (hydroxymethyl)‐aminomethane molecules with a single‐metal atom. Introduction of imidazole into solution produces a remarkable effect of eliminating the structural variety, with the mass spectrum displaying a single abundant metal‐containing ion, [Ru III + 2 T + 2Im(C 3 N 2 H 4 ) – 2H] + . Nevertheless, the Ru III T 2 core (common to most complexes observed prior to the imidazole addition) appears to be preserved.…”
Section: Resultssupporting
confidence: 85%
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“…Despite an impressive variety of various ruthenium (III) complexes observed in the ESI mass spectra acquired in aqueous solution in the presence of tris (hydroxymethyl)‐aminomethane, it is worth noting that most of these complexes have a common structural feature, ie, association of two tris (hydroxymethyl)‐aminomethane molecules with a single‐metal atom. Introduction of imidazole into solution produces a remarkable effect of eliminating the structural variety, with the mass spectrum displaying a single abundant metal‐containing ion, [Ru III + 2 T + 2Im(C 3 N 2 H 4 ) – 2H] + . Nevertheless, the Ru III T 2 core (common to most complexes observed prior to the imidazole addition) appears to be preserved.…”
Section: Resultssupporting
confidence: 85%
“…The reactivity of commonly used buffering compounds towards a wide range of biomolecules, particularly ones incorporating metal ions, is now widely recognized . Tris (tris (hydroxymethyl)‐aminomethane) in particular is known to form complexes with a variety of transition metals, and we recently observed facile oxidation and ligand exchange within the [Ru II (NH 3 ) 5 Cl] + complex upon its placement in Tris buffer under aerobic conditions . Earlier studies of Ru III complexation by tris (hydroxymethyl)‐aminomethane resulted in the complex structure assignment as [(RuTCl) 2 ]Cl 2 , where T denotes tris (hydroxymethyl)‐aminomethane .…”
Section: Resultsmentioning
confidence: 99%
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