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GPS-SNO: Computational Prediction of Protein S-Nitrosylation Sites with a Modified GPS Algorithm

Author

Listed:
  • Yu Xue
  • Zexian Liu
  • Xinjiao Gao
  • Changjiang Jin
  • Longping Wen
  • Xuebiao Yao
  • Jian Ren

Abstract

As one of the most important and ubiquitous post-translational modifications (PTMs) of proteins, S-nitrosylation plays important roles in a variety of biological processes, including the regulation of cellular dynamics and plasticity. Identification of S-nitrosylated substrates with their exact sites is crucial for understanding the molecular mechanisms of S-nitrosylation. In contrast with labor-intensive and time-consuming experimental approaches, prediction of S-nitrosylation sites using computational methods could provide convenience and increased speed. In this work, we developed a novel software of GPS-SNO 1.0 for the prediction of S-nitrosylation sites. We greatly improved our previously developed algorithm and released the GPS 3.0 algorithm for GPS-SNO. By comparison, the prediction performance of GPS 3.0 algorithm was better than other methods, with an accuracy of 75.80%, a sensitivity of 53.57% and a specificity of 80.14%. As an application of GPS-SNO 1.0, we predicted putative S-nitrosylation sites for hundreds of potentially S-nitrosylated substrates for which the exact S-nitrosylation sites had not been experimentally determined. In this regard, GPS-SNO 1.0 should prove to be a useful tool for experimentalists. The online service and local packages of GPS-SNO were implemented in JAVA and are freely available at: http://sno.biocuckoo.org/.

Suggested Citation

  • Yu Xue & Zexian Liu & Xinjiao Gao & Changjiang Jin & Longping Wen & Xuebiao Yao & Jian Ren, 2010. "GPS-SNO: Computational Prediction of Protein S-Nitrosylation Sites with a Modified GPS Algorithm," PLOS ONE, Public Library of Science, vol. 5(6), pages 1-7, June.
    • Handle: RePEc:plo:pone00:0011290
    DOI: 10.1371/journal.pone.0011290
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    Cited by:

    1. Yan Xu & Jun Ding & Ling-Yun Wu & Kuo-Chen Chou, 2013. "iSNO-PseAAC: Predict Cysteine S-Nitrosylation Sites in Proteins by Incorporating Position Specific Amino Acid Propensity into Pseudo Amino Acid Composition," PLOS ONE, Public Library of Science, vol. 8(2), pages 1-7, February.
    2. Tzong-Yi Lee & Yi-Ju Chen & Tsung-Cheng Lu & Hsien-Da Huang & Yu-Ju Chen, 2011. "SNOSite: Exploiting Maximal Dependence Decomposition to Identify Cysteine S-Nitrosylation with Substrate Site Specificity," PLOS ONE, Public Library of Science, vol. 6(7), pages 1-11, July.

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