Per Olof Edlund scite author profile

It has been suggested in the literature that nano-electrospray ionization (nano-ESI) mass spectrometry better reflects the equilibrium between complex and free protein in solution than pneumatically assisted electrospray ionization (ESI) in noncovalent interaction studies. However, no systematic studies of the effects of ionization conditions have been performed to support this statement. In the present work, different instrumental and sample-derived parameters affecting the stability of noncovalent complexes during analysis by nano-ESI were investigated. In general, increased values of parameters such as drying gas flow-rate, ion-source temperature, capillary tip voltage and buffer concentration lead to a dissociation of ribonuclease A (RNAse)-cytidine 2'-monophosphate (CMP) and cytidine 5'-triphosphate (CTP) complexes. The size of the electrosprayed droplets was shown to be an important issue. Increasing the capillary to cone distance yielded an increased complex to free protein ratio when a hydrophilic ligand was present and the reverse effect was obtained with a hydrophobic ligand. Important in this regard is the degree of sampling of ions originating from late-generation residue droplets, that is, ions present in the droplet bulk. Sampling of these ions increases with longer capillary-cone distance (flight time). Furthermore, when the sample flow-rate was increased by increasing the capillary internal tip i.d. from 4 to 30 microm, a decreased complex to free protein ratio for the RNAse-CTP system was observed. This behavior was consistent with the change in surface to volume ratio for flow-rates between 2 and 100 nl min(-1). Finally, polarity switching between positive and negative ion modes gave a higher complex to free protein ratio when the ligand and the protein had the same polarity.

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Cisplatin, Transplatin, and Their Hydrated Complexes: Separation and Identification Using Porous Graphitic Carbon and Electrospray Ionization Mass Spectrometry

Ehrsson¹,

Wallin²,

Andersson³

et al. 1995

Anal. Chem.

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Determination of corticosteroids in tissue samples by liquid chromatography–tandem mass spectrometry

Rönquist-Nii

Edlund

2005

Journal of Pharmaceutical and Biomedical Analysis

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On‐line microdialysis for enhanced resolution and sensitivity during electrospray mass spectrometry of non‐covalent complexes and competitive binding studies

Benkestock

Edlund

Roeraade

2002

Rapid Comm Mass Spectrometry

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Many proteins and macromolecules easily form metal adduct ions which impairs their analysis by mass spectrometry. The present study describes how the formation of undesired adducts can be minimized by on-line microdialysis for non-covalent binding studies of macromolecules with low molecular mass ligands with electrospray ionization mass spectrometry (ESI-MS). The technique was indispensable for protein-ligand studies due to reduction of unwanted adduct ions, and thus gave excellent resolution and a sensitivity improvement of at least 5 times. The core of the analytical system was a modified microdialysis device, which was operated in countercurrent mode. A novel technique based on microdialysis for competitive binding studies is also presented. The non-covalent complex between a protein and a ligand was formed in the sample vial prior to analysis. The complex was injected into an on-line microdialysis system where a competitive ligand was administered in the dialysis buffer outside of the fiber. The second ligand competitively displaced the first ligand through transport via the wall of the dialysis fiber, and the intact complexes were detected by ESI-MS.

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Per Olof Edlund

Determination of coenzyme Q10, α-tocopherol and cholesterol in biological samples by coupled-column liquid chromatography with coulometric and ultraviolet detection

Influence of droplet size, capillary–cone distance and selected instrumental parameters for the analysis of noncovalent protein–ligand complexes by nano‐electrospray ionization mass spectrometry

Cisplatin, Transplatin, and Their Hydrated Complexes: Separation and Identification Using Porous Graphitic Carbon and Electrospray Ionization Mass Spectrometry

Determination of corticosteroids in tissue samples by liquid chromatography–tandem mass spectrometry

On‐line microdialysis for enhanced resolution and sensitivity during electrospray mass spectrometry of non‐covalent complexes and competitive binding studies

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