High-Accuracy Peptide Mass Fingerprinting Using Peak Intensity Data with Machine Learning | Zendy

Dongmei Yang | Zendy; Kevin Ramkissoon | Zendy; Eric D. Hamlett | Zendy; Morgan C. Giddings | Zendy

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High-Accuracy Peptide Mass Fingerprinting Using Peak Intensity Data with Machine Learning

Author(s) -

Dongmei Yang,

Kevin Ramkissoon,

Eric D. Hamlett,

Morgan C. Giddings

Publication year - 2007

Publication title -

journal of proteome research

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.644

H-Index - 161

eISSN - 1535-3907

pISSN - 1535-3893

DOI - 10.1021/pr070088g

Subject(s) - peptide mass fingerprinting , mass spectrometry , peptide , fingerprint (computing) , identification (biology) , chemistry , chromatography , analytical chemistry (journal) , computer science , artificial intelligence , pattern recognition (psychology) , proteomics , biology , biochemistry , botany , gene

For MALDI-TOF mass spectrometry, we show that the intensity of a peptide-ion peak is directly correlated with its sequence, with the residues M, H, P, R, and L having the most substantial effect on ionization. We developed a machine learning approach that exploits this relationship to significantly improve peptide mass fingerprint (PMF) accuracy based on training data sets from both true-positive and false-positive PMF searches. The model's cross-validated accuracy in distinguishing real versus false-positive database search results is 91%, rivaling the accuracy of MS/MS-based protein identification.

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