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Literature DB >> 21876205

A face in the crowd: recognizing peptides through database search.

Jimmy K Eng¹, Brian C Searle, Karl R Clauser, David L Tabb.

Abstract

Peptide identification via tandem mass spectrometry sequence database searching is a key method in the array of tools available to the proteomics researcher. The ability to rapidly and sensitively acquire tandem mass spectrometry data and perform peptide and protein identifications has become a commonly used proteomics analysis technique because of advances in both instrumentation and software. Although many different tandem mass spectrometry database search tools are currently available from both academic and commercial sources, these algorithms share similar core elements while maintaining distinctive features. This review revisits the mechanism of sequence database searching and discusses how various parameter settings impact the underlying search.

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Year: 2011 PMID： 21876205 PMCID： PMC3226415 DOI： 10.1074/mcp.R111.009522

Source DB: PubMed Journal: Mol Cell Proteomics ISSN： 1535-9476 Impact factor: 5.911

58 in total

1. Error tolerant searching of uninterpreted tandem mass spectrometry data.

Authors: David M Creasy; John S Cottrell
Journal: Proteomics Date: 2002-10 Impact factor: 3.984

2. Empirical statistical model to estimate the accuracy of peptide identifications made by MS/MS and database search.

Authors: Andrew Keller; Alexey I Nesvizhskii; Eugene Kolker; Ruedi Aebersold
Journal: Anal Chem Date: 2002-10-15 Impact factor: 6.986

3. A hypergeometric probability model for protein identification and validation using tandem mass spectral data and protein sequence databases.

Authors: Rovshan G Sadygov; John R Yates
Journal: Anal Chem Date: 2003-08-01 Impact factor: 6.986

4. Open mass spectrometry search algorithm.

Authors: Lewis Y Geer; Sanford P Markey; Jeffrey A Kowalak; Lukas Wagner; Ming Xu; Dawn M Maynard; Xiaoyu Yang; Wenyao Shi; Stephen H Bryant
Journal: J Proteome Res Date: 2004 Sep-Oct Impact factor: 4.466

5. Efficient and specific trypsin digestion of microgram to nanogram quantities of proteins in organic-aqueous solvent systems.

Authors: Michael Brad Strader; David L Tabb; W Judson Hervey; Chongle Pan; Gregory B Hurst
Journal: Anal Chem Date: 2006-01-01 Impact factor: 6.986

6. Peptide sequence tag-based blind identification of post-translational modifications with point process model.

Authors: Chunmei Liu; Bo Yan; Yinglei Song; Ying Xu; Liming Cai
Journal: Bioinformatics Date: 2006-07-15 Impact factor: 6.937

7. Comment on "Unbiased statistical analysis for multi-stage proteomic search strategies".

Authors: Marshall Bern; Yong J Kil
Journal: J Proteome Res Date: 2011-02-21 Impact factor: 4.466

8. Does trypsin cut before proline?

Authors: Jesse Rodriguez; Nitin Gupta; Richard D Smith; Pavel A Pevzner
Journal: J Proteome Res Date: 2007-12-08 Impact factor: 4.466

9. The Paragon Algorithm, a next generation search engine that uses sequence temperature values and feature probabilities to identify peptides from tandem mass spectra.

Authors: Ignat V Shilov; Sean L Seymour; Alpesh A Patel; Alex Loboda; Wilfred H Tang; Sean P Keating; Christie L Hunter; Lydia M Nuwaysir; Daniel A Schaeffer
Journal: Mol Cell Proteomics Date: 2007-05-27 Impact factor: 5.911

10. Characterization of the human plasma phosphoproteome using linear ion trap mass spectrometry and multiple search engines.

Authors: Montserrat Carrascal; Marina Gay; David Ovelleiro; Vanessa Casas; Emilio Gelpí; Joaquin Abian
Journal: J Proteome Res Date: 2010-02-05 Impact factor: 4.466

44 in total

Review 1. Peptide identification by tandem mass spectrometry with alternate fragmentation modes.

Authors: Adrian Guthals; Nuno Bandeira
Journal: Mol Cell Proteomics Date: 2012-05-17 Impact factor: 5.911

Review 2. Combining results of multiple search engines in proteomics.

Authors: David Shteynberg; Alexey I Nesvizhskii; Robert L Moritz; Eric W Deutsch
Journal: Mol Cell Proteomics Date: 2013-05-29 Impact factor: 5.911

3. 2018 YPIC Challenge: A Case Study in Characterizing an Unknown Protein Sample.

Authors: Lindsay Pino; Andy Lin; Wout Bittremieux
Journal: J Proteome Res Date: 2019-10-07 Impact factor: 4.466

Review 4. Quantitative proteomic analysis of histone modifications.

Authors: He Huang; Shu Lin; Benjamin A Garcia; Yingming Zhao
Journal: Chem Rev Date: 2015-02-17 Impact factor: 60.622

5. Building high-quality assay libraries for targeted analysis of SWATH MS data.

Authors: Olga T Schubert; Ludovic C Gillet; Ben C Collins; Pedro Navarro; George Rosenberger; Witold E Wolski; Henry Lam; Dario Amodei; Parag Mallick; Brendan MacLean; Ruedi Aebersold
Journal: Nat Protoc Date: 2015-02-12 Impact factor: 13.491

Review 6. Trans-Proteomic Pipeline, a standardized data processing pipeline for large-scale reproducible proteomics informatics.

Authors: Eric W Deutsch; Luis Mendoza; David Shteynberg; Joseph Slagel; Zhi Sun; Robert L Moritz
Journal: Proteomics Clin Appl Date: 2015-04-02 Impact factor: 3.494

7. Investigation of scrambled ions in tandem mass spectra, part 2. On the influence of the ions on peptide identification.

Authors: Nai-ping Dong; Yi-zeng Liang; Lun-zhao Yi; Hong-mei Lu
Journal: J Am Soc Mass Spectrom Date: 2013-03-16 Impact factor: 3.109