Incorporating Sequence Information into the Scoring Function: A Hidden Markov Model for Improved Peptide Identification

doi:10.1093/bioinformatics/btn011

Bioinformatics Advance Access published online on January 10, 2008
Bioinformatics, doi:10.1093/bioinformatics/btn011

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Incorporating Sequence Information into the Scoring Function: A Hidden Markov Model for Improved Peptide Identification

Jainab Khatun ¹, Eric Hamlett ¹ and Morgan C. Giddings ¹^,2^,3^,*

¹Department of Microbiology and Immunology
²Department of Biomedical Engineering
³Department of Computer Science University of North Carolina at Chapel Hill, Chapel Hill, NC 27599

*To whom correspondence should be addressed. Prof. Morgan C. Giddings, E-mail: giddings{at}unc.edu, giddings{at}med.unc.edu

Abstract

Motivation: The identification of peptides by tandem mass spectrometry(MS/MS) is a central method of proteomics research, but dueto the complexity of MS/MS data and the large databases searched,the accuracy of peptide identification algorithms remains limited.To improve the accuracy of identification we applied a machine-learningapproach using a hidden Markov model (HMM) to capture the complexand often subtle links between a peptide sequence and its MS/MSspectrum.

Model: Our model, HMM_Score, represents ion types as HMM statesand calculates the maximum joint probability for a peptide/spectrumpair using emission probabilities from three factors: the aminoacids adjacent to each fragmentation site, the mass dependenceof ion types, and the intensity dependence of ion types. TheViterbi algorithm is used to calculate the most probable assignmentbetween ion types in a spectrum and a peptide sequence, thena correction factor added to account for the propensity of themodel to favor longer peptides. An expectation value is calculatedbased on the model score to assess the significance of eachpeptide/spectrum match.

Results: We trained and tested HMM_Score on three data setsgenerated by two different mass spectrometer types. For a referencedataset recently reported in the literature and validated usingfive identification algorithms, HMM_Score produced 43% morepositive identification results at a 1% false positive ratethan the best of two other commonly used algorithms, Mascotand X!Tandem. HMM_Score is a highly accurate platform for peptideidentification that works well for a variety of mass spectrometerand biological sample types.

Availability: The program is freely available on ProteomeCommonsvia an OpenSource license. See http://bioinfo.med.unc.edu/Downloads/for the download link.

Associate Editor: Dr. Chris Stoeckert

Received on July 27, 2007; revised on January 4, 2008; accepted on January 4, 2008

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