Abstract
Bats are known to be reservoirs of several highly pathogenic viruses. Hence, the interest in bat virus discovery has been increasing rapidly over the last decade. So far, most studies have focused on a single type of virus detection method, either PCR, virus isolation or virome sequencing. Here we present a comprehensive approach in virus discovery, using all three discovery methods on samples from the same bats. By family-specific PCR screening we found sequences of paramyxoviruses, adenoviruses, herpesviruses and one coronavirus. By cell culture we isolated a novel bat adenovirus and bat orthoreovirus. Virome sequencing revealed viral sequences of ten different virus families and orders: three bat nairoviruses, three phenuiviruses, one orbivirus, one rotavirus, one orthoreovirus, one mononegavirus, five parvoviruses, seven picornaviruses, three retroviruses, one totivirus and two thymoviruses were discovered. Of all viruses identified by family-specific PCR in the original samples, none was found by metagenomic sequencing. Vice versa, none of the viruses found by the metagenomic virome approach was detected by family-specific PCRs targeting the same family. The discrepancy of detected viruses by different detection approaches suggests that a combined approach using different detection methods is necessary for virus discovery studies.
Highlights
Bats are known to be reservoirs of several highly pathogenic viruses
While mainly family-specific PCR approaches were used to detect novel virus strains during the first years of virus discovery in bats, generation sequencing approaches have gained in significance in recent years
This paper summarizes comprehensive results obtained during a study on German bats by three different detection approaches, namely PCR, cell culture virus isolation and Next Generation Sequencing (NGS)
Summary
Bats are known to be reservoirs of several highly pathogenic viruses. the interest in bat virus discovery has been increasing rapidly over the last decade. Most studies have focused on a single type of virus detection method, either PCR, virus isolation or virome sequencing. Of all viruses identified by family-specific PCR in the original samples, none was found by metagenomic sequencing. None of the viruses found by the metagenomic virome approach was detected by family-specific PCRs targeting the same family. While mainly family-specific PCR approaches were used to detect novel virus strains during the first years of virus discovery in bats, generation sequencing approaches have gained in significance in recent years. This paper summarizes comprehensive results obtained during a study on German bats by three different detection approaches, namely PCR, cell culture virus isolation and NGS. We discuss the suggestion of the virome sequencing approach replacing conventional virus discovery methods such as family-specific PCR and cell culture virus isolation
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