Mspire-Simulator: LC-MS Shotgun Proteomic Simulator for Creating Realistic Gold Standard Data

Noyce, Andrew B; Smith, Rob; Dalgleish, James; Taylor, Ryan M.; Erb, K. C.; Okuda, Nozomu; Prince, John T.

doi:10.1021/pr400727e

Cited by 20 publications

(18 citation statements)

References 23 publications

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“…Our results show how ViMMS can be used to explore parameter combinations for a particular fragmentation strategies in-silico for existing data, virtually re-run existing data under an alternative strategy and benchmark existing fragmentation strategies (like DsDA) with minimal modifications under the proposed framework. This is a capability not available from other simulators [14,16,15,4,3,9]. On top of fragmentation data, ViMMS can also be used to benchmark and perform comparative evaluation of different LC-MS data processing algorithm, such as peak picking and retention time alignment [17] in a more controlled manner.…”

Section: Discussionmentioning

confidence: 99%

“…Unlike other simulators, e.g. [14,16,15,4,3], chemical objects can also be associated with fragment spectra that could themselves be extracted from spectral databases or generated using in-silico fragment prediction methods (Section 2.2.5). In-silico scan simulation in ViMMS (yellow box in Figure 1) proceeds as follows.…”

Section: Overall Frameworkmentioning

confidence: 99%

“…An appealing alternative way to evaluate fragmentation strategies is through the use of a simulator, which can replicate the underlying LC-MS/MS processes and allow researchers to prototype and compare strategies before validation on the actual MS instrument. Although some mass spectrometry simulators exist they are typically focused on proteomics and do not include simulation of the MS2 acquisition strategy within a chromatographic run [14,16,15,4,3,9]. Additionally existing simulators do not allow for real-time control of scan events (such as programmatically determining which m/z ranges to scan at a particular retention time), a crucial function for developing novel fragmentation strategies that can be controlled through libraries available with modern mass spectrometers, e.g.…”

Section: Introductionmentioning

confidence: 99%

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In-silico Optimisation of Mass Spectrometry Fragmentation Strategies in Metabolomics

Wandy

Davies

Hooft³

et al. 2019

Preprint

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Liquid-Chromatography (LC) coupled to tandem mass spectrometry (MS/MS) is widely used in identifying small molecules in untargeted metabolomics. Various strategies exist to acquire MS/MS fragmentation spectra; however, the development of new acquisition strategies is hampered by the lack of simulators that let researchers prototype, compare, and optimise strategies before validations on real machines. We introduce Virtual Metabolomics Mass Spectrometer (ViMMS), a modular metabolomics LC-MS/MS simulator framework that allows for scan-level control of the MS2 acquisition process in-silico. ViMMS can generate new LC-MS/MS data based on empirical data or virtually re-run a previous LC-MS/MS analysis using pre-existing data in-silico to allow the testing of different fragmentation strategies. It allows the comparison of different fragmentation strategies on real data, with the resulting scan results extractable as mzML files. To demonstrate its utility, we show how our proposed framework can be used to take the output of a real tandem mass spectrometry analysis and examine the effect of varying parameters in Top-N Data Dependent Acquisition protocol. We also demonstrate how ViMMS can be used to compare a recently published Data-set-Dependent Acquisition strategy with a standard Top-N strategy. We expect that ViMMS will save method development time by allowing for offline evaluation of novel fragmentation strategies and optimisation of fragmentation strategy for a particular experiment.

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Section: Discussionmentioning

confidence: 99%

Section: Overall Frameworkmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

In-silico Optimisation of Mass Spectrometry Fragmentation Strategies in Metabolomics

Wandy

Davies

Hooft³

et al. 2019

Preprint

View full text Add to dashboard Cite

show abstract

“…An appealing alternative way to evaluate fragmentation strategies is using a simulator, which can replicate the underlying LC-MS/MS processes and allow researchers to prototype and compare strategies before validation on the actual MS instrument. Although some mass spectrometry simulators exist they are typically focused on proteomics and do not include simulation of the MS2 acquisition strategy within a chromatographic run [5,6,7,8,9,10]. Additionally, existing simulators do not allow for real-time control of scan events (such as programmatically determining which m / z ranges to scan at a particular retention time), a crucial function for developing novel fragmentation strategies that can be controlled through libraries available with modern mass spectrometers, e.g., using the Instrument Application Programming Interface (API) available for Thermo Tribrid instruments [11] that has begun to generate interest within the mass spectrometry community (e.g., [12]).…”

Section: Introductionmentioning

confidence: 99%

In Silico Optimization of Mass Spectrometry Fragmentation Strategies in Metabolomics

et al. 2019

View full text Add to dashboard Cite

Liquid chromatography (LC) coupled to tandem mass spectrometry (MS/MS) is widely used in identifying small molecules in untargeted metabolomics. Various strategies exist to acquire MS/MS fragmentation spectra; however, the development of new acquisition strategies is hampered by the lack of simulators that let researchers prototype, compare, and optimize strategies before validations on real machines. We introduce Virtual Metabolomics Mass Spectrometer (ViMMS), a metabolomics LC-MS/MS simulator framework that allows for scan-level control of the MS2 acquisition process in silico. ViMMS can generate new LC-MS/MS data based on empirical data or virtually re-run a previous LC-MS/MS analysis using pre-existing data to allow the testing of different fragmentation strategies. To demonstrate its utility, we show how ViMMS can be used to optimize N for Top-N data-dependent acquisition (DDA) acquisition, giving results comparable to modifying N on the mass spectrometer. We expect that ViMMS will save method development time by allowing for offline evaluation of novel fragmentation strategies and optimization of the fragmentation strategy for a particular experiment.

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“…Проблема отбора таких пептидов чрезвычайно актуальна, ведь формирование потока ионов из заряженной капли в электроспрее -сложный процесс, обусловленный многими факторами. Данная проблема достаточно подробно исследовалась в конце 80-х начале 90-х годов прошлого века [1,2] и в ряде работ анализировалась возможность отбора хорошо детектируемых пептидов [3][4][5][6][7]. В частности, Fusaro с соавторами [7] предсказывали пептиды с высоким уровнем ответа на основании анализа более 30 дескрипторов, описывающих свойства пептидов методом "случайного леса".…”

Section: Introductionunclassified

A plain method of prediction of visibility of peptides in mass spectrometry with electrospray ionization

et al. 2014

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A new method for screening of essential peptides for protein detection and quantification analysis in the direct positive electrospray mass spectrometry has been proposed. Our method is based on the prediction of the normalized abundance of the mass spectrometric peaks using a linear regression model. This method has the folowing limitations: (i) selected peptides should be taken so that at pH 2.5 the tested peptides must be presented mainly as the 2+ and 3+ ions; (ii) only peptides having C-terminal lysine or arginine residues are considered. The amino acid composition of the peptide, the peptide concentration, the ratio of the polar surface of peptide to common surface and ratio of the polar volume to common volume are used as independent variables in equation. Several combinations of variables were considered and the best linear regression model had a determination coefficient in leave-one-out validation procedure equal 0.54. This model confidently discriminates peptides with high response ability and peptides with low response ability, and therefore it allows to select only the most promising peptides. This screening method, a plain and fast, can be successfully applied to reduce the list of observed peptides.

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Mspire-Simulator: LC-MS Shotgun Proteomic Simulator for Creating Realistic Gold Standard Data

Cited by 20 publications

References 23 publications

In-silico Optimisation of Mass Spectrometry Fragmentation Strategies in Metabolomics

In-silico Optimisation of Mass Spectrometry Fragmentation Strategies in Metabolomics

In Silico Optimization of Mass Spectrometry Fragmentation Strategies in Metabolomics

A plain method of prediction of visibility of peptides in mass spectrometry with electrospray ionization

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