Abstract

BackgroundPost-database search is a key procedure in peptide identification with tandem mass spectrometry (MS/MS) strategies for refining peptide-spectrum matches (PSMs) generated by database search engines. Although many statistical and machine learning-based methods have been developed to improve the accuracy of peptide identification, the challenge remains on large-scale datasets and datasets with a distribution of unbalanced PSMs. A more efficient learning strategy is required for improving the accuracy of peptide identification on challenging datasets. While complex learning models have larger power of classification, they may cause overfitting problems and introduce computational complexity on large-scale datasets. Kernel methods map data from the sample space to high dimensional spaces where data relationships can be simplified for modeling.ResultsIn order to tackle the computational challenge of using the kernel-based learning model for practical peptide identification problems, we present an online learning algorithm, OLCS-Ranker, which iteratively feeds only one training sample into the learning model at each round, and, as a result, the memory requirement for computation is significantly reduced. Meanwhile, we propose a cost-sensitive learning model for OLCS-Ranker by using a larger loss of decoy PSMs than that of target PSMs in the loss function.ConclusionsThe new model can reduce its false discovery rate on datasets with a distribution of unbalanced PSMs. Experimental studies show that OLCS-Ranker outperforms other methods in terms of accuracy and stability, especially on datasets with a distribution of unbalanced PSMs. Furthermore, OLCS-Ranker is 15–85 times faster than CRanker.

Highlights

  • Tandem mass spectrometry (MS/MS)-based strategies are presently the method of choice for large-scale protein identification due to its high-throughput analysis of biological samples

  • With database sequence searching method, a huge number of peptide spectra generated from MS/MS experiments are routinely searched by using a search engine, such as SEQUEST, MASCOT or X!TANDEM, against theoretical fragmentation spectra derived from target databases or experimentally observed spectra for peptide-spectrum match (PSM)

  • PeptideProphet employs the expectation maximization method to compute the probabilities of correct and incorrect PSM, based on the assumption that the PSM data are drawn from a mixture of the Gaussian distribution and the Gamma distribution which generate samples of the correct and incorrect

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Summary

Introduction

Tandem mass spectrometry (MS/MS)-based strategies are presently the method of choice for large-scale protein identification due to its high-throughput analysis of biological samples. PeptideProphet employs the expectation maximization method to compute the probabilities of correct and incorrect PSM, based on the assumption that the PSM data are drawn from a mixture of the Gaussian distribution and the Gamma distribution which generate samples of the correct and incorrect. Post-database search is a key procedure in peptide identification with tandem mass spectrometry (MS/MS) strategies for refining peptide-spectrum matches (PSMs) generated by database search engines. Many statistical and machine learning-based methods have been developed to improve the accuracy of peptide identification, the challenge remains on large-scale datasets and datasets with a distribution of unbalanced PSMs. A more efficient learning strategy is required for improving the accuracy of peptide identification on challenging datasets. Kernel methods map data from the sample space to high dimensional spaces where data relationships can be simplified for modeling

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