Literature DB >> 27246681

Untargeted, spectral library-free analysis of data-independent acquisition proteomics data generated using Orbitrap mass spectrometers.

Chih-Chiang Tsou1, Chia-Feng Tsai2, Guo Ci Teo3, Yu-Ju Chen2, Alexey I Nesvizhskii1,3.   

Abstract

We describe an improved version of the data-independent acquisition (DIA) computational analysis tool DIA-Umpire, and show that it enables highly sensitive, untargeted, and direct (spectral library-free) analysis of DIA data obtained using the Orbitrap family of mass spectrometers. DIA-Umpire v2 implements an improved feature detection algorithm with two additional filters based on the isotope pattern and fractional peptide mass analysis. The targeted re-extraction step of DIA-Umpire is updated with an improved scoring function and a more robust, semiparametric mixture modeling of the resulting scores for computing posterior probabilities of correct peptide identification in a targeted setting. Using two publicly available Q Exactive DIA datasets generated using HEK-293 cells and human liver microtissues, we demonstrate that DIA-Umpire can identify similar number of peptide ions, but with better identification reproducibility between replicates and samples, as with conventional data-dependent acquisition. We further demonstrate the utility of DIA-Umpire using a series of Orbitrap Fusion DIA experiments with HeLa cell lysates profiled using conventional data-dependent acquisition and using DIA with different isolation window widths.
© 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

Entities:  

Keywords:  Bioinformatics; Data-independent acquisition

Mesh:

Year:  2016        PMID: 27246681      PMCID: PMC5476226          DOI: 10.1002/pmic.201500526

Source DB:  PubMed          Journal:  Proteomics        ISSN: 1615-9853            Impact factor:   3.984


  39 in total

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2.  Development and validation of a spectral library searching method for peptide identification from MS/MS.

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Journal:  Proteomics       Date:  2007-03       Impact factor: 3.984

3.  PeptideShaker enables reanalysis of MS-derived proteomics data sets.

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4.  Employing ProteoWizard to Convert Raw Mass Spectrometry Data.

Authors:  Jerry D Holman; David L Tabb; Parag Mallick
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5.  OpenSWATH enables automated, targeted analysis of data-independent acquisition MS data.

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Journal:  Nat Biotechnol       Date:  2014-03       Impact factor: 54.908

Review 6.  A survey of computational methods and error rate estimation procedures for peptide and protein identification in shotgun proteomics.

Authors:  Alexey I Nesvizhskii
Journal:  J Proteomics       Date:  2010-09-08       Impact factor: 4.044

7.  SWATH analysis of the synaptic proteome in Alzheimer's disease.

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8.  An open-source computational and data resource to analyze digital maps of immunopeptidomes.

Authors:  Etienne Caron; Lucia Espona; Daniel J Kowalewski; Heiko Schuster; Nicola Ternette; Adán Alpízar; Ralf B Schittenhelm; Sri H Ramarathinam; Cecilia S Lindestam Arlehamn; Ching Chiek Koh; Ludovic C Gillet; Armin Rabsteyn; Pedro Navarro; Sangtae Kim; Henry Lam; Theo Sturm; Miguel Marcilla; Alessandro Sette; David S Campbell; Eric W Deutsch; Robert L Moritz; Anthony W Purcell; Hans-Georg Rammensee; Stefan Stevanovic; Ruedi Aebersold
Journal:  Elife       Date:  2015-07-08       Impact factor: 8.140

9.  Extending the limits of quantitative proteome profiling with data-independent acquisition and application to acetaminophen-treated three-dimensional liver microtissues.

Authors:  Roland Bruderer; Oliver M Bernhardt; Tejas Gandhi; Saša M Miladinović; Lin-Yang Cheng; Simon Messner; Tobias Ehrenberger; Vito Zanotelli; Yulia Butscheid; Claudia Escher; Olga Vitek; Oliver Rinner; Lukas Reiter
Journal:  Mol Cell Proteomics       Date:  2015-02-27       Impact factor: 5.911

10.  MS-GF+ makes progress towards a universal database search tool for proteomics.

Authors:  Sangtae Kim; Pavel A Pevzner
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  19 in total

1.  Impact of the Identification Strategy on the Reproducibility of the DDA and DIA Results.

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2.  Deep Proteomics Using Two Dimensional Data Independent Acquisition Mass Spectrometry.

Authors:  Kyung-Cho Cho; David J Clark; Michael Schnaubelt; Guo Ci Teo; Felipe da Veiga Leprevost; William Bocik; Emily S Boja; Tara Hiltke; Alexey I Nesvizhskii; Hui Zhang
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3.  An algorithm to correct saturated mass spectrometry ion abundances for enhanced quantitation and mass accuracy in omic studies.

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4.  Data-Independent Acquisition Mass Spectrometry-Based Deep Proteome Analysis for Hydrophobic Proteins from Dried Blood Spots Enriched by Sodium Carbonate Precipitation.

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Review 5.  Developing mass spectrometry for the quantitative analysis of neuropeptides.

Authors:  Christopher S Sauer; Ashley Phetsanthad; Olga L Riusech; Lingjun Li
Journal:  Expert Rev Proteomics       Date:  2021-08-26       Impact factor: 4.250

Review 6.  Clinical applications of quantitative proteomics using targeted and untargeted data-independent acquisition techniques.

Authors:  Jesse G Meyer; Birgit Schilling
Journal:  Expert Rev Proteomics       Date:  2017-05       Impact factor: 3.940

7.  Joint Precursor Elution Profile Inference via Regression for Peptide Detection in Data-Independent Acquisition Mass Spectra.

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Journal:  J Proteome Res       Date:  2018-10-26       Impact factor: 4.466

8.  New Strategies and Challenges in Lung Proteomics and Metabolomics. An Official American Thoracic Society Workshop Report.

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Review 9.  Expanding the Use of Spectral Libraries in Proteomics.

Authors:  Eric W Deutsch; Yasset Perez-Riverol; Robert J Chalkley; Mathias Wilhelm; Stephen Tate; Timo Sachsenberg; Mathias Walzer; Lukas Käll; Bernard Delanghe; Sebastian Böcker; Emma L Schymanski; Paul Wilmes; Viktoria Dorfer; Bernhard Kuster; Pieter-Jan Volders; Nico Jehmlich; Johannes P C Vissers; Dennis W Wolan; Ana Y Wang; Luis Mendoza; Jim Shofstahl; Andrew W Dowsey; Johannes Griss; Reza M Salek; Steffen Neumann; Pierre-Alain Binz; Henry Lam; Juan Antonio Vizcaíno; Nuno Bandeira; Hannes Röst
Journal:  J Proteome Res       Date:  2018-10-11       Impact factor: 4.466

10.  Biomonitoring Human Albumin Adducts: The Past, the Present, and the Future.

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