DeepSol: a deep learning framework for sequence-based protein solubility prediction | Zendy

Sameer Khurana | Zendy; Reda Rawi | Zendy; Khalid Kunji | Zendy; Gwo-Yu Chuang | Zendy; Halima Bensmail | Zendy; Raghvendra Mall | Zendy

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DeepSol: a deep learning framework for sequence-based protein solubility prediction

Author(s) -

Sameer Khurana,

Reda Rawi,

Khalid Kunji,

Gwo-Yu Chuang,

Halima Bensmail,

Raghvendra Mall

Publication year - 2018

Publication title -

bioinformatics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.599

H-Index - 390

eISSN - 1367-4811

pISSN - 1367-4803

DOI - 10.1093/bioinformatics/bty166

Subject(s) - solubility , sequence (biology) , computer science , convolutional neural network , protein sequencing , deep learning , artificial intelligence , protein structure prediction , in silico , data mining , machine learning , peptide sequence , protein structure , chemistry , biochemistry , organic chemistry , gene

Protein solubility plays a vital role in pharmaceutical research and production yield. For a given protein, the extent of its solubility can represent the quality of its function, and is ultimately defined by its sequence. Thus, it is imperative to develop novel, highly accurate in silico sequence-based protein solubility predictors. In this work we propose, DeepSol, a novel Deep Learning-based protein solubility predictor. The backbone of our framework is a convolutional neural network that exploits k-mer structure and additional sequence and structural features extracted from the protein sequence.

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