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Deep learning models for bacteria taxonomic classification of metagenomic data.
Fiannaca, Antonino; La Paglia, Laura; La Rosa, Massimo; Lo Bosco, Giosue'; Renda, Giovanni; Rizzo, Riccardo; Gaglio, Salvatore; Urso, Alfonso.
  • Fiannaca A; CNR-ICAR, National Research Council of Italy, Via Ugo La Malfa, 153, Palermo, Italy. antonino.fiannaca@icar.cnr.it.
  • La Paglia L; CNR-ICAR, National Research Council of Italy, Via Ugo La Malfa, 153, Palermo, Italy.
  • La Rosa M; CNR-ICAR, National Research Council of Italy, Via Ugo La Malfa, 153, Palermo, Italy.
  • Lo Bosco G; Dipartimento di Matematica e Informatica, Università degli studi di Palermo, Via Archirafi, 34, Palermo, Italy.
  • Renda G; Dipartimento dell'Innovazione Industriale e Digitale, Università degli studi di Palermo, Viale Delle Scienze, ed.6, Palermo, Italy.
  • Rizzo R; CNR-ICAR, National Research Council of Italy, Via Ugo La Malfa, 153, Palermo, Italy.
  • Gaglio S; CNR-ICAR, National Research Council of Italy, Via Ugo La Malfa, 153, Palermo, Italy.
  • Urso A; Dipartimento dell'Innovazione Industriale e Digitale, Università degli studi di Palermo, Viale Delle Scienze, ed.6, Palermo, Italy.
BMC Bioinformatics ; 19(Suppl 7): 198, 2018 07 09.
Article en En | MEDLINE | ID: mdl-30066629
BACKGROUND: An open challenge in translational bioinformatics is the analysis of sequenced metagenomes from various environmental samples. Of course, several studies demonstrated the 16S ribosomal RNA could be considered as a barcode for bacteria classification at the genus level, but till now it is hard to identify the correct composition of metagenomic data from RNA-seq short-read data. 16S short-read data are generated using two next generation sequencing technologies, i.e. whole genome shotgun (WGS) and amplicon (AMP); typically, the former is filtered to obtain short-reads belonging to a 16S shotgun (SG), whereas the latter take into account only some specific 16S hypervariable regions. The above mentioned two sequencing technologies, SG and AMP, are used alternatively, for this reason in this work we propose a deep learning approach for taxonomic classification of metagenomic data, that can be employed for both of them. RESULTS: To test the proposed pipeline, we simulated both SG and AMP short-reads, from 1000 16S full-length sequences. Then, we adopted a k-mer representation to map sequences as vectors into a numerical space. Finally, we trained two different deep learning architecture, i.e., convolutional neural network (CNN) and deep belief network (DBN), obtaining a trained model for each taxon. We tested our proposed methodology to find the best parameters configuration, and we compared our results against the classification performances provided by a reference classifier for bacteria identification, known as RDP classifier. We outperformed the RDP classifier at each taxonomic level with both architectures. For instance, at the genus level, both CNN and DBN reached 91.3% of accuracy with AMP short-reads, whereas RDP classifier obtained 83.8% with the same data. CONCLUSIONS: In this work, we proposed a 16S short-read sequences classification technique based on k-mer representation and deep learning architecture, in which each taxon (from phylum to genus) generates a classification model. Experimental results confirm the proposed pipeline as a valid approach for classifying bacteria sequences; for this reason, our approach could be integrated into the most common tools for metagenomic analysis. According to obtained results, it can be successfully used for classifying both SG and AMP data.
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Texto completo: 1 Banco de datos: MEDLINE Asunto principal: Bacterias / Metagenoma / Metagenómica / Aprendizaje Profundo / Modelos Genéticos Tipo de estudio: Prognostic_studies Idioma: En Año: 2018 Tipo del documento: Article

Texto completo: 1 Banco de datos: MEDLINE Asunto principal: Bacterias / Metagenoma / Metagenómica / Aprendizaje Profundo / Modelos Genéticos Tipo de estudio: Prognostic_studies Idioma: En Año: 2018 Tipo del documento: Article