Abstract
Defective interfering (DI) genomes, or defective viral genomes (DVGs), are truncated viral genomes generated during replication of most viruses, including live viral vaccines. Among these, “panhandle” or copy-back (cb) and “hairpin” or snap-back (sb) DI genomes are generated during RNA virus replication. 5′ cb/sb DI genomes are highly relevant for viral pathogenesis since they harbor immunostimulatory properties that increase virus recognition by the innate immune system of the host. We have developed DI-tector, a user-friendly and freely available program that identifies and characterizes cb/sb genomes from next-generation sequencing (NGS) data. DI-tector confirmed the presence of 5′ cb genomes in cells infected with measles virus (MV). DI-tector also identified a novel 5′ cb genome, as well as a variety of 3′ cb/sb genomes whose existence had not previously been detected by conventional approaches in MV-infected cells. The presence of these novel cb/sb genomes was confirmed by RT-qPCR and RT-PCR, validating the ability of DI-tector to reveal the landscape of DI genome population in infected cell samples. Performance assessment using different experimental and simulated data sets revealed the robust specificity and sensitivity of DI-tector. We propose DI-tector as a universal tool for the unbiased detection of DI viral genomes, including 5′ cb/sb DI genomes, in NGS data.
Funder
Institut Pasteur, the “Centre National de la Rercherche Scientifique,”
Agence Nationale de la Recherche
Institut de Recherche Biomédicale des Armées
Publisher
Cold Spring Harbor Laboratory
Cited by
32 articles.
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