Your search keyword '"Zhang, Jianqiu"' showing total 11 results

1. PeakLink: a new peptide peak linking method in LC-MS/MS using wavelet and SVM.

Author

Ghanat Bari M, Ma X, and Zhang J

Subjects

Algorithms, Humans, Proteomics methods, Chromatography, Liquid methods, Peptides chemistry, Support Vector Machine, Tandem Mass Spectrometry methods, Wavelet Analysis

Abstract

Motivation: In liquid chromatography-mass spectrometry/tandem mass spectrometry (LC-MS/MS), it is necessary to link tandem MS-identified peptide peaks so that protein expression changes between the two runs can be tracked. However, only a small number of peptides can be identified and linked by tandem MS in two runs, and it becomes necessary to link peptide peaks with tandem identification in one run to their corresponding ones in another run without identification. In the past, peptide peaks are linked based on similarities in retention time (rt), mass or peak shape after rt alignment, which corrects mean rt shifts between runs. However, the accuracy in linking is still limited especially for complex samples collected from different conditions. Consequently, large-scale proteomics studies that require comparison of protein expression profiles of hundreds of patients can not be carried out effectively., Method: In this article, we consider the problem of linking peptides from a pair of LC-MS/MS runs and propose a new method, PeakLink (PL), which uses information in both the time and frequency domain as inputs to a non-linear support vector machine (SVM) classifier. The PL algorithm first uses a threshold on an rt likelihood ratio score to remove candidate corresponding peaks with excessively large elution time shifts, then PL calculates the correlation between a pair of candidate peaks after reducing noise through wavelet transformation. After converting rt and peak shape correlation to statistical scores, an SVM classifier is trained and applied for differentiating corresponding and non-corresponding peptide peaks., Results: PL is tested in multiple challenging cases, in which LC-MS/MS samples are collected from different disease states, different instruments and different laboratories. Testing results show significant improvement in linking accuracy compared with other algorithms., Availability and Implementation: M files for the PL alignment method are available at http://compgenomics.utsa.edu/zgroup/PeakLink., Supplementary Information: Supplementary data are available at Bioinformatics online., (© The Author 2014. Published by Oxford University Press. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com.)

Published

2014

2. Accurate LC peak boundary detection for ¹⁶O/¹⁸O labeled LC-MS data.

Author

Cui J, Petritis K, Tegeler T, Petritis B, Ma X, Jin Y, Gao SJ, and Zhang JM

Subjects

Algorithms, Chromatography, Liquid methods, Mass Spectrometry methods, Peptides analysis

Abstract

In liquid chromatography-mass spectrometry (LC-MS), parts of LC peaks are often corrupted by their co-eluting peptides, which results in increased quantification variance. In this paper, we propose to apply accurate LC peak boundary detection to remove the corrupted part of LC peaks. Accurate LC peak boundary detection is achieved by checking the consistency of intensity patterns within peptide elution time ranges. In addition, we remove peptides with erroneous mass assignment through model fitness check, which compares observed intensity patterns to theoretically constructed ones. The proposed algorithm can significantly improve the accuracy and precision of peptide ratio measurements.

Published

2013

3. BPDA2d--a 2D global optimization-based Bayesian peptide detection algorithm for liquid chromatograph-mass spectrometry.

Author

Sun Y, Zhang J, Braga-Neto U, and Dougherty ER

Subjects

Bayes Theorem, Chromatography, Liquid, Mass Spectrometry, Probability, Algorithms, Peptides analysis, Proteomics methods, Software

Abstract

Motivation: Peptide detection is a crucial step in mass spectrometry (MS) based proteomics. Most existing algorithms are based upon greedy isotope template matching and thus may be prone to error propagation and ineffective to detect overlapping peptides. In addition, existing algorithms usually work at different charge states separately, isolating useful information that can be drawn from other charge states, which may lead to poor detection of low abundance peptides., Results: BPDA2d models spectra as a mixture of candidate peptide signals and systematically evaluates all possible combinations of possible peptide candidates to interpret the given spectra. For each candidate, BPDA2d takes into account its elution profile, charge state distribution and isotope pattern, and it combines all evidence to infer the candidate's signal and existence probability. By piecing all evidence together--especially by deriving information across charge states--low abundance peptides can be better identified and peptide detection rates can be improved. Instead of local template matching, BPDA2d performs global optimization for all candidates and systematically optimizes their signals. Since BPDA2d looks for the optimal among all possible interpretations of the given spectra, it has the capability in handling complex spectra where features overlap. BPDA2d estimates the posterior existence probability of detected peptides, which can be directly used for probability-based evaluation in subsequent processing steps. Our experiments indicate that BPDA2d outperforms state-of-the-art detection methods on both simulated data and real liquid chromatography-mass spectrometry data, according to sensitivity and detection accuracy., Availability: The BPDA2d software package is available at http://gsp.tamu.edu/Publications/supplementary/sun11a/.

Published

2012

4. SCFIA: a statistical corresponding feature identification algorithm for LC/MS.

Author

Cui J, Ma X, Chen L, and Zhang J

Subjects

Models, Statistical, Peptides chemistry, Proteins analysis, Proteins chemistry, Algorithms, Chromatography, Liquid methods, Mass Spectrometry methods, Peptides analysis

Abstract

Background: Identifying corresponding features (LC peaks registered by identical peptides) in multiple Liquid Chromatography/Mass Spectrometry (LC-MS) datasets plays a crucial role in the analysis of complex peptide or protein mixtures. Warping functions are commonly used to correct the mean of elution time shifts among LC-MS datasets, which cannot resolve the ambiguity of corresponding feature identification since elution time shifts are random. We propose a Statistical Corresponding Feature Identification Algorithm(SCFIA) based on both elution time shifts and peak shape correlations between corresponding features. SCFIA first trains a set of statistical models, and then, all candidate corresponding features are scored by the statistical models to find the maximum likelihood solution., Results: We test SCFIA on publicly available datasets. We first compare its performance with that of warping function based methods, and the results show significant improvements. The performance of SCFIA on replicates datasets and fractionated datasets is also evaluated. In both cases, the accuracy is above 90%, which is near optimal. Finally the coverage of SCFIA is evaluated, and it is shown that SCFIA can find corresponding features in multiple datasets for over 90% peptides identified by Tandem MS., Conclusions: SCFIA can be used for accurate corresponding feature identification in LC-MS. We have shown that peak shape correlation can be used effectively for improving the accuracy. SCFIA provides high coverage in corresponding feature identification in multiple datasets, which serves the basis for integrating multiple LC-MS measurements for accurate peptide quantification.

Published

2011

5. Suppression correction and characteristic study in liquid chromatography/Fourier transform mass spectrometry measurements.

Author

Ma X, Hestilow TJ, Cui J, and Zhang J

Subjects

Algorithms, Carbon Isotopes chemistry, Computer Simulation, Databases, Protein, Humans, Models, Chemical, Chromatography, Liquid methods, Fourier Analysis, Mass Spectrometry methods, Peptides chemistry

Abstract

Analysis of peptide profiles from liquid chromatography/Fourier transform mass spectrometry (LC/FTMS) reveals a nonlinear distortion in intensity. Investigation of the measured C(13)/C(12) ratios comparing with theoretical ones shows that the nonlinearity can be attributed to signal suppression of low abundance peptide peaks. We find that the suppression is homogenous for different isotopes of identical peptides but non-homogenous for different peptides. We develop an iterative correction algorithm that corrects the intensity distortions for peptides with relatively high abundance. This algorithm can be applied in a wide range of applications using LC/FTMS. We also analyze the distortion characteristics of the instrument for lower abundance peptides, which should be considered when interpreting quantification results of LC/FTMS., (Copyright © 2011 John Wiley & Sons, Ltd.)

Published

2011

6. ICPD-a new peak detection algorithm for LC/MS.

Author

Zhang J and Haskins W

Subjects

ROC Curve, Algorithms, Chromatography, Liquid methods, Mass Spectrometry methods, Peptides analysis

Abstract

Background: The identification and quantification of proteins using label-free Liquid Chromatography/Mass Spectrometry (LC/MS) play crucial roles in biological and biomedical research. Increasing evidence has shown that biomarkers are often low abundance proteins. However, LC/MS systems are subject to considerable noise and sample variability, whose statistical characteristics are still elusive, making computational identification of low abundance proteins extremely challenging. As a result, the inability of identifying low abundance proteins in a proteomic study is the main bottleneck in protein biomarker discovery., Results: In this paper, we propose a new peak detection method called Information Combining Peak Detection (ICPD ) for high resolution LC/MS. In LC/MS, peptides elute during a certain time period and as a result, peptide isotope patterns are registered in multiple MS scans. The key feature of the new algorithm is that the observed isotope patterns registered in multiple scans are combined together for estimating the likelihood of the peptide existence. An isotope pattern matching score based on the likelihood probability is provided and utilized for peak detection., Conclusions: The performance of the new algorithm is evaluated based on protein standards with 48 known proteins. The evaluation shows better peak detection accuracy for low abundance proteins than other LC/MS peak detection methods.

Published

2010

7. BPDA - a Bayesian peptide detection algorithm for mass spectrometry.

Author

Sun Y, Zhang J, Braga-Neto U, and Dougherty ER

Subjects

Databases, Protein, Proteome analysis, Algorithms, Mass Spectrometry methods, Peptides analysis, Peptides chemistry, Software

Abstract

Background: Mass spectrometry (MS) is an essential analytical tool in proteomics. Many existing algorithms for peptide detection are based on isotope template matching and usually work at different charge states separately, making them ineffective to detect overlapping peptides and low abundance peptides., Results: We present BPDA, a Bayesian approach for peptide detection in data produced by MS instruments with high enough resolution to baseline-resolve isotopic peaks, such as MALDI-TOF and LC-MS. We model the spectra as a mixture of candidate peptide signals, and the model is parameterized by MS physical properties. BPDA is based on a rigorous statistical framework and avoids problems, such as voting and ad-hoc thresholding, generally encountered in algorithms based on template matching. It systematically evaluates all possible combinations of possible peptide candidates to interpret a given spectrum, and iteratively finds the best fitting peptide signal in order to minimize the mean squared error of the inferred spectrum to the observed spectrum. In contrast to previous detection methods, BPDA performs deisotoping and deconvolution of mass spectra simultaneously, which enables better identification of weak peptide signals and produces higher sensitivities and more robust results. Unlike template-matching algorithms, BPDA can handle complex data where features overlap. Our experimental results indicate that BPDA performs well on simulated data and real MS data sets, for various resolutions and signal to noise ratios, and compares very favorably with commonly used commercial and open-source software, such as flexAnalysis, OpenMS, and Decon2LS, according to sensitivity and detection accuracy., Conclusion: Unlike previous detection methods, which only employ isotopic distributions and work at each single charge state alone, BPDA takes into account the charge state distribution as well, thus lending information to better identify weak peptide signals and produce more robust results. The proposed approach is based on a rigorous statistical framework, which avoids problems generally encountered in algorithms based on template matching. Our experiments indicate that BPDA performs well on both simulated data and real data, and compares very favorably with commonly used commercial and open-source software. The BPDA software can be downloaded from http://gsp.tamu.edu/Publications/supplementary/sun10a/bpda.

Published

2010

8. Suppression correction and characteristic study in liquid chromatography/Fourier transform mass spectrometry measurements

Author

Ma, Xuepo, Hestilow, Travis J., Cui, Jian, and Zhang, Jianqiu

Subjects

Carbon Isotopes, Fourier Analysis, Models, Chemical, Humans, Computer Simulation, Databases, Protein, Peptides, Article, Algorithms, Mass Spectrometry, Chromatography, Liquid

Abstract

Analysis of peptide profiles from liquid chromatography/Fourier transform mass spectrometry (LC/FTMS) reveals a nonlinear distortion in intensity. Investigation of the measured C(13)/C(12) ratios comparing with theoretical ones shows that the nonlinearity can be attributed to signal suppression of low abundance peptide peaks. We find that the suppression is homogenous for different isotopes of identical peptides but non-homogenous for different peptides. We develop an iterative correction algorithm that corrects the intensity distortions for peptides with relatively high abundance. This algorithm can be applied in a wide range of applications using LC/FTMS. We also analyze the distortion characteristics of the instrument for lower abundance peptides, which should be considered when interpreting quantification results of LC/FTMS.

Published

2011

9. Joint corresponding feature identification and alignment for multiple LC/MS replicates.

Author

Cui, Jian, Ma, Xuepo, and Zhang, Jianqiu

Abstract

In Liquid Chromatography/Mass Spectrometry (LC-MS), identifying corresponding peptide features (LC peaks) in multiple replicate datasets plays a crucial role in the differential analysis of complex peptide or protein samples for biomarker discovery. Given a peptide sequence, we aim at identifying its LC peak intervals in all datasets simultaneously. Generally, features are first identified in each replicate dataset, and then the features are aligned using warping functions. In such a procedure, the error in feature identification will propagate to alignment. Instead, we consider the problem of joint feature identification and alignment in multiple datasets. Since accurate feature identification improves the accuracy of corresponding feature alignment and vice versa, joint processing provides better performance than separate processing. We propose an algorithm which combines peak identification quality scores, time shifts and the similarity of LC peak shapes between candidate corresponding features for accurate alignment. In addition, we also incorporate the approximate elution time interval of a peptide stored in an Accurate Time and Mass (ATM) database when available. We test our algorithm on publicly available datasets, and we compare its with that of separate feature identification and alignment. Results show that the number of accurately identified corresponding features is improved significantly by using the proposed method. [ABSTRACT FROM PUBLISHER]

Published

2011

10. Accurate LC Peak Boundary Detection for 16O/18O Labeled LC-MS Data.

Author

Cui, Jian, Petritis, Konstantinos, Tegeler, Tony, Petritis, Brianne, Ma, Xuepo, Jin, Yufang, Gao, Shou-Jiang (SJ), and Zhang, Jianqiu (Michelle)

Subjects

LIQUID chromatography-mass spectrometry, PEPTIDES, CARBON oxides, ELUTION (Chromatography), ALGORITHMS, COMPARATIVE studies

Abstract

In liquid chromatography-mass spectrometry (LC-MS), parts of LC peaks are often corrupted by their co-eluting peptides, which results in increased quantification variance. In this paper, we propose to apply accurate LC peak boundary detection to remove the corrupted part of LC peaks. Accurate LC peak boundary detection is achieved by checking the consistency of intensity patterns within peptide elution time ranges. In addition, we remove peptides with erroneous mass assignment through model fitness check, which compares observed intensity patterns to theoretically constructed ones. The proposed algorithm can significantly improve the accuracy and precision of peptide ratio measurements. [ABSTRACT FROM AUTHOR]

Published

2013

11. Bayesian Peptide Peak Detection for High Resolution TOF Mass Spectrometry.

Author

Zhang, Jianqiu, Zhou, Xiaobo, Wang, Honghui, Suffredini, Anthony, Zhang, Lin, Huang, Yufei, and Wong, Stephen

Abstract

In this paper, we address the issue of peptide ion peak detection for high resolution time-of-flight (TOF) mass spectrometry (MS) data. A novel Bayesian peptide ion peak detection method is proposed for TOF data with resolution of 10\thinspace000–15\thinspace000 full width at half-maximum (FWHW). MS spectra exhibit distinct characteristics at this resolution, which are captured in a novel parametric model. Based on the proposed parametric model, a Bayesian peak detection algorithm based on Markov chain Monte Carlo (MCMC) sampling is developed. The proposed algorithm is tested on both simulated and real datasets. The results show a significant improvement in detection performance over a commonly employed method. The results also agree with expert's visual inspection. Moreover, better detection consistency is achieved across MS datasets from patients with identical pathological condition. [ABSTRACT FROM PUBLISHER]

Published

2010