Book ChapterDOI
EigenMS: de novo analysis of peptide tandem mass spectra by spectral graph partitioning
Marshall Bern,David E. Goldberg +1 more
- pp 357-372
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TLDR
Along with spectral graph theory techniques, EigenMS incorporates another improvement of independent interest: robust statistical methods for recalibration of time-of-flight mass measurements.Abstract:
We report on a new de novo peptide sequencing algorithm that uses spectral graph partitioning. In this approach, relationships between m/z peaks are represented by attractive and repulsive springs, and the vibrational modes of the spring system are used to infer information about the peaks (such as “likely b-ion” or “likely y-ion”). We demonstrate the effectiveness of this approach by comparison with other de novo sequencers on test sets of ion-trap and QTOF spectra, including spectra of mixtures of peptides. On all data sets we outperform the other sequencers. Along with spectral graph theory techniques, EigenMS incorporates another improvement of independent interest: robust statistical methods for recalibration of time-of-flight mass measurements. Robust recalibration greatly outperforms simple least-squares recalibration, achieving about three times the accuracy for one QTOF data set.read more
Citations
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Journal ArticleDOI
De novo peptide sequencing and identification with precision mass spectrometry.
TL;DR: It is demonstrated how the dramatically improved performance of de novo sequencing with precision mass spectrometry paves the way for novel approaches to peptide identification that are based on direct sequence lookups, rather than comparisons of spectra to a database.
Journal ArticleDOI
NovoHMM: a hidden Markov model for de novo peptide sequencing
Bernd Fischer,Volker Roth,Franz F. Roos,Jonas Grossmann,Sacha Baginsky,Peter Widmayer,Wilhelm Gruissem,Joachim M. Buhmann +7 more
TL;DR: In this paper, a generative hidden Markov model (HMM) of mass spectra for de novo peptide sequencing is proposed, which constitutes a novel view on how to solve this problem in a Bayesian framework.
Journal ArticleDOI
MSNovo: a dynamic programming algorithm for de novo peptide sequencing via tandem mass spectrometry.
TL;DR: This paper presents a new approach to peptide de novo sequencing, called MSNovo, which has the following advanced features: It works on data generated from both LCQ and LTQ mass spectrometers and interprets singly, doubly, and triply charged ions.
Journal ArticleDOI
PepHMM: a hidden Markov model based scoring function for mass spectrometry database search.
TL;DR: This work implements and tests a method that combines information on machine accuracy, mass peak intensity, and correlation among ions into a hidden Markov model (HMM) and develops a method to calculate statistical significance of the HMM scores.
Journal ArticleDOI
Speeding up tandem mass spectrometry database search: metric embeddings and fast near neighbor search
Debojyoti Dutta,Ting Chen +1 more
TL;DR: This article shows that it can avoid the one-against-all comparisons of a query spectrum against a very large number of peptides generated from in silico digestion of protein sequences in a database, and can be effectively used for other mass spectra mining applications such as finding clusters of spectra efficiently and accurately.
References
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Normalized cuts and image segmentation
Jianbo Shi,Jitendra Malik +1 more
TL;DR: This work treats image segmentation as a graph partitioning problem and proposes a novel global criterion, the normalized cut, for segmenting the graph, which measures both the total dissimilarity between the different groups as well as the total similarity within the groups.
Journal ArticleDOI
Probability-based protein identification by searching sequence databases using mass spectrometry data.
TL;DR: A new computer program, Mascot, is presented, which integrates all three types of search for protein identification by searching a sequence database using mass spectrometry data, and the scoring algorithm is probability based.
Book
Robust Regression and Outlier Detection
TL;DR: This paper presents the results of a two-year study of the statistical treatment of outliers in the context of one-Dimensional Location and its applications to discrete-time reinforcement learning.