Performances of Bioinformatics Pipelines for the Identification of Pathogensin Clinical Samples with the De Novo Assembly Approaches: Focuson 2009 Pandemic Influenza A (H1N1)

Diagnostic assays for pathogen detection are critical components of public-health monitoring efforts. In view of the limitations of methods that target specific agents, new approaches are required for the identification of novel, modi- fied or 'unsuspected' pathogens in public-health monitoring schemes. Metagenomic approach is an attractive possibility for rapid identification of these pathogens. The analysis of metagenomic libraries requires fast computation and appropri- ate algorithms to characterize sequences. In this paper, we compared the computational efficiency of different bioinfor- matic pipelines ad hoc established, based on de novo assembly of pathogen genomes, using a data set generated with a 454 genome sequencer from respiratory samples of patients with diagnosis of 2009 pandemic influenza A (H1N1). The results indicate high computational efficiency of the different bioinformatic pipelines, reducing the number of alignments respect to the identification based on the alignment of individual reads. The resulting computational time, added to the processing/sequencing time, is well compatible with diagnostic needs. The pipelines here described are useful in the unbi- ased analysis of clinical samples from patients with infectious diseases that may be relevant not only for the rapid identifi- cation but also for the extensive genetic characterization of viral pathogens without the need of culture amplification.