Modular calibrant sets for the structural analysis of nucleic acids by ion mobility spectrometry mass spectrometry

This study explored the use of modular nucleic acid (NA) standards to generate calibration curves capable of translating primary ion mobility readouts into corresponding collision cross section (CCS) data. Putative calibrants consisted of single- (ss) and double-stranded (ds) oligo-deoxynucleotides...

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Bibliographic Details
Published in:Analyst (London) 2016-06, Vol.141 (13), p.484-499
Main Authors: Lippens, Jennifer L, Ranganathan, Srivathsan V, D'Esposito, Rebecca J, Fabris, Daniele
Format: Article
Language:English
Subjects:
Approximation
Calibration
Computation
Houses
Ion mobility
Ion Mobility Spectrometry
Ionic mobility
Mass Spectrometry
Mathematical analysis
Nucleic acids
Nucleic Acids - analysis
Reference Values
Reproducibility of Results
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Summary:This study explored the use of modular nucleic acid (NA) standards to generate calibration curves capable of translating primary ion mobility readouts into corresponding collision cross section (CCS) data. Putative calibrants consisted of single- (ss) and double-stranded (ds) oligo-deoxynucleotides reaching up to ∼40 kDa in size ( i.e. , 64 bp) and ∼5700 Å 2 in CCS. To ensure self-consistency among reference CCS values, computational data obtained in house were preferred to any experimental or computational data from disparate sources. Such values were obtained by molecular dynamics (MD) simulations and either the exact hard sphere scattering (EHSS) or the projection superposition approximation (PSA) methods, and then plotted against the corresponding experimental values to generate separate calibration curves. Their performance was evaluated on the basis of their correlation coefficients and ability to provide values that matched the CCS of selected test samples mimicking typical unknowns. The results indicated that the predictive power benefited from the exclusion of higher charged species that were more susceptible to the destabilizing effects of Coulombic repulsion. The results revealed discrepancies between EHSS and PSA data that were ascribable to the different approximations used to describe the ion mobility process. Within the boundaries defined by these approximations and the challenges of modeling NA structure in a solvent-free environment, the calibrant sets enabled the experimental determination of CCS with excellent reproducibility (precision) and error (accuracy), which will support the analysis of progressively larger NA samples of biological significance. This study explored the use of modular nucleic acid (NA) standards to generate calibration curves capable of translating primary ion mobility readouts into corresponding collision cross section (CCS) data.
ISSN:0003-2654
1364-5528
DOI:10.1039/c6an00453a