Genomics, Proteomics & Bioinformatics (Dec 2018)

Integration of A Deep Learning Classifier with A Random Forest Approach for Predicting Malonylation Sites

  • Zhen Chen,
  • Ningning He,
  • Yu Huang,
  • Wen Tao Qin,
  • Xuhan Liu,
  • Lei Li

Journal volume & issue
Vol. 16, no. 6
pp. 451 – 459

Abstract

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As a newly-identified protein post-translational modification, malonylation is involved in a variety of biological functions. Recognizing malonylation sites in substrates represents an initial but crucial step in elucidating the molecular mechanisms underlying protein malonylation. In this study, we constructed a deep learning (DL) network classifier based on long short-term memory (LSTM) with word embedding (LSTMWE) for the prediction of mammalian malonylation sites. LSTMWE performs better than traditional classifiers developed with common pre-defined feature encodings or a DL classifier based on LSTM with a one-hot vector. The performance of LSTMWE is sensitive to the size of the training set, but this limitation can be overcome by integration with a traditional machine learning (ML) classifier. Accordingly, an integrated approach called LEMP was developed, which includes LSTMWE and the random forest classifier with a novel encoding of enhanced amino acid content. LEMP performs not only better than the individual classifiers but also superior to the currently-available malonylation predictors. Additionally, it demonstrates a promising performance with a low false positive rate, which is highly useful in the prediction application. Overall, LEMP is a useful tool for easily identifying malonylation sites with high confidence. LEMP is available at http://www.bioinfogo.org/lemp. Keywords: Deep learning, Recurrent neural network, LSTM, Malonylation, Random forest