Bioinformatic identification of proteins with altered PTM levels in a mouse line established to study the mechanisms of the development of fibromuscular dysplasia

Voronina, A.I.; Miroshnichenko, Yu.V.; Skvortsov, V.S.

doi:10.18097/pbmc20247004248

BIOMED KHIM

2024

DOI: 10.18097/pbmc20247004248

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Bioinformatic identification of proteins with altered PTM levels in a mouse line established to study the mechanisms of the development of fibromuscular dysplasia

A.I. Voronina,

Yu.V. Miroshnichenko,

V.S. Skvortsov

Abstract: Data from a mass spectrometry experiment of a mouse line developed to study the mechanisms of fibromuscular dysplasia and deposited by d'Escamard et al. in ProteomeXchange (PXD051750) have been analyzed. Identification of peptides with post-translational modifications (PTMs) was repeated using more stringent conditions than in the original work. The following modifications were considered during analysis of changes in the PTM levels in experimental and control groups of mice: acetylation of lysine residue and … Show more

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Prediction of Peptide Ion Distribution in Positive Electrospray Ionization

Voronina,

Skvortsov

2024

BMCRM

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We have investigated the possibility of predicting the distribution of ions of different charge during electrospray ionization of peptides in mass spectrometric experiments using neural networks. Three independent data sets obtained on the same equipment and deposited in ProteomeXchange (PXD032141, PXD051750, PXD019263) were used as training and test samples. A set of fractional values for 1+ to 5+ ions was calculated as predicted values for each of the newly identified peptides. Four different sets of peptide descriptions were used as independent variables, including both the spectrum of amino acid residues and the physicochemical properties of the amino acid residues. Sixty-four variants of neural networks were analyzed, varying the input description, number and type of layers, activation and loss functions. The coefficient of determination and a set of Euclidean, Sørensen, Chebyshev, and Cosine metrics were considered as measures of prediction quality. For the best selected variants, the error did not exceed 10% in 80% of the cases. This accuracy may be sufficient for a preliminary estimation of the probability of detecting a peptide ion of a given charge.

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Prediction of Peptide Ion Distribution in Positive Electrospray Ionization

Voronina,

Skvortsov

2024

BMCRM

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Bioinformatic identification of proteins with altered PTM levels in a mouse line established to study the mechanisms of the development of fibromuscular dysplasia

Cited by 1 publication

References 13 publications

Prediction of Peptide Ion Distribution in Positive Electrospray Ionization

Prediction of Peptide Ion Distribution in Positive Electrospray Ionization

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