SUMOhydro: a Novel Method for the Prediction of Sumoylation Sites Based on Hydrophobic Properties

Overview

Journal PLoS One

Specialties General Medicine
Science

Date 2012 Jun 22

PMID 22720073

Citations 30

Authors

Yong-Zi Chen

Zhen Chen

Yu-Ai Gong

Guoguang Ying

Affiliations

Soon will be listed here.

Abstract

Sumoylation is one of the most essential mechanisms of reversible protein post-translational modifications and is a crucial biochemical process in the regulation of a variety of important biological functions. Sumoylation is also closely involved in various human diseases. The accurate computational identification of sumoylation sites in protein sequences aids in experimental design and mechanistic research in cellular biology. In this study, we introduced amino acid hydrophobicity as a parameter into a traditional binary encoding scheme and developed a novel sumoylation site prediction tool termed SUMOhydro. With the assistance of a support vector machine, the proposed method was trained and tested using a stringent non-redundant sumoylation dataset. In a leave-one-out cross-validation, the proposed method yielded an excellent performance with a correlation coefficient, specificity, sensitivity and accuracy equal to 0.690, 98.6%, 71.1% and 97.5%, respectively. In addition, SUMOhydro has been benchmarked against previously described predictors based on an independent dataset, thereby suggesting that the introduction of hydrophobicity as an additional parameter could assist in the prediction of sumoylation sites. Currently, SUMOhydro is freely accessible at http://protein.cau.edu.cn/others/SUMOhydro/.

Citing Articles

XGBoost-enhanced ensemble model using discriminative hybrid features for the prediction of sumoylation sites.

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ProSol-multi: Protein solubility prediction via amino acids multi-level correlation and discriminative distribution.

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PSSM-Sumo: deep learning based intelligent model for prediction of sumoylation sites using discriminative features.

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SumoPred-PLM: human SUMOylation and SUMO2/3 sites Prediction using Pre-trained Protein Language Model.

Palacios A, Acharya P, Peidl A, Beck M, Blanco E, Mishra A NAR Genom Bioinform. 2024; 6(1):lqae011.

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Enhancing Sumoylation Site Prediction: A Deep Neural Network with Discriminative Features.

Khan S, Khan M, Iqbal N, Dilshad N, Almufareh M, Alsubaie N Life (Basel). 2023; 13(11).

PMID: 38004293 PMC: 10672286. DOI: 10.3390/life13112153.

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