ABSTRACT RNA viruses cause numerous emerging diseases, mostly due to transmission from mammalian and avian reservoirs. Large-scale surveillance of RNA viral infections in these animals is a fundamental step for controlling viral infectious diseases. Metagenomic analysis is a powerful method for virus identification with low bias and has contributed substantially to the discovery of novel viruses. Deep-sequencing data have been collected from diverse animals and accumulated in public databases, which can be valuable resources for identifying unknown viral sequences. Here, we screened for infections of 33 RNA viral families in publicly available mammalian and avian sequencing data and found approximately 900 hidden viral infections. We also d...
Metagenomic next-generation sequencing (mNGS) has enabled the high-throughput multiplexed identifica...
Zoonotic viruses are a major contributor to emerging infectious diseases, and continuously burden ...
The contemporary surge in metagenomic sequencing has transformed knowledge of viral diversity in wil...
RNA viruses cause numerous emerging diseases, mostly due to transmission from mammalian and avian re...
Many human viral infections have a zoonotic, i.e., wild or domestic animal, origin. Several zoonotic...
markdownabstract__Abstract__ Infectious diseases can be caused by a wide variety of pathogens, in...
Proactive approaches in preventing future epidemics include pathogen discovery prior to their emerge...
Understanding emerging viruses is critical for disease monitoring and prediction; however, surveys o...
A majority of emerging infectious diseases are of zoonotic origin. Metagenomic Next-Generation Seque...
A majority of emerging infectious diseases are of zoonotic origin. Metagenomic Next-Generation Seque...
Whole genome sequencing (WGS) datasets, usually generated for the investigation of the individual an...
Unveiling origin of infectious diseases with unknown etiology is one of the major issues in contempo...
Our knowledge of the genetic diversity and host ranges of viruses is fragmentary. This is particular...
Metagenomic next-generation sequencing (mNGS), particularly total RNA sequencing (“meta-transcriptom...
Metagenomic next-generation sequencing (mNGS) has enabled the high-throughput multiplexed identifica...
Zoonotic viruses are a major contributor to emerging infectious diseases, and continuously burden ...
The contemporary surge in metagenomic sequencing has transformed knowledge of viral diversity in wil...
RNA viruses cause numerous emerging diseases, mostly due to transmission from mammalian and avian re...
Many human viral infections have a zoonotic, i.e., wild or domestic animal, origin. Several zoonotic...
markdownabstract__Abstract__ Infectious diseases can be caused by a wide variety of pathogens, in...
Proactive approaches in preventing future epidemics include pathogen discovery prior to their emerge...
Understanding emerging viruses is critical for disease monitoring and prediction; however, surveys o...
A majority of emerging infectious diseases are of zoonotic origin. Metagenomic Next-Generation Seque...
A majority of emerging infectious diseases are of zoonotic origin. Metagenomic Next-Generation Seque...
Whole genome sequencing (WGS) datasets, usually generated for the investigation of the individual an...
Unveiling origin of infectious diseases with unknown etiology is one of the major issues in contempo...
Our knowledge of the genetic diversity and host ranges of viruses is fragmentary. This is particular...
Metagenomic next-generation sequencing (mNGS), particularly total RNA sequencing (“meta-transcriptom...
Metagenomic next-generation sequencing (mNGS) has enabled the high-throughput multiplexed identifica...
Zoonotic viruses are a major contributor to emerging infectious diseases, and continuously burden ...
The contemporary surge in metagenomic sequencing has transformed knowledge of viral diversity in wil...