The use of the MinION sequencer (Oxford Nanopore) was tested on samples prepared to simulate infectious samples. The tested procedure is to simulate work with a sample with an unknown pathogen. Therefore, a metagenomic approach was chosen. Three kits were tested: Rapid Barcoding Sequencing, PCR Barcoding and Premium whole genome amplification. Each kit differed in duration, difficulty to prepare and in amplification of nucleic acids. In total it was chosen eight viruses with different genome lengths and with varying types of the genome (5,6 - 152 kb, ss/ds RNA, dsDNA). Ten samples were prepared to simulate different types of infection (respiratory, gastrointestinal tract and urine), and one sample contained pure water as a negative control....
Until recently, the method of choice to characterize viral diversity consisted in cloning PCR amplic...
International audienceUntil recently, the method of choice to characterize viral diversity consisted...
International audienceNext-generation sequencing (NGS), through the implementation of metagenomic pr...
V této diplomové práci bylo testováno použití sekvenátoru MinION (Oxford Nanopore) na vzorcích připr...
As exemplified by the global response to the SARS-CoV-2 pandemic, whole-genome sequencing played an ...
Abstract Background Sequence-specific PCR is the most common approach for virus identification in di...
Viruses are the main cause of respiratory tract infections. Metagenomic next-generation sequencing (...
Novel DNA sequencing techniques, referred to as "next-generation" sequencing (NGS), provide high spe...
Efficient detection of human respiratory viral pathogens is crucial in the management of patients wi...
Background Outbreaks of fever of unknown origin start with nonspecific symptoms and case definition ...
Recent advances in Nanopore sequencing have paved the way for new opportunities in the field of vira...
Shotgun metagenomic sequencing (SMg) enables the simultaneous detection and characterization of viru...
AbstractRecent advances in nucleic acid sequencing technologies, referred to as ‘next-generation’ se...
Efficient detection of human respiratory viral pathogens is crucial in the management of patients wi...
BACKGROUND: To understand the dynamics of infectious diseases, genomic epidemiology is increasingly ...
Until recently, the method of choice to characterize viral diversity consisted in cloning PCR amplic...
International audienceUntil recently, the method of choice to characterize viral diversity consisted...
International audienceNext-generation sequencing (NGS), through the implementation of metagenomic pr...
V této diplomové práci bylo testováno použití sekvenátoru MinION (Oxford Nanopore) na vzorcích připr...
As exemplified by the global response to the SARS-CoV-2 pandemic, whole-genome sequencing played an ...
Abstract Background Sequence-specific PCR is the most common approach for virus identification in di...
Viruses are the main cause of respiratory tract infections. Metagenomic next-generation sequencing (...
Novel DNA sequencing techniques, referred to as "next-generation" sequencing (NGS), provide high spe...
Efficient detection of human respiratory viral pathogens is crucial in the management of patients wi...
Background Outbreaks of fever of unknown origin start with nonspecific symptoms and case definition ...
Recent advances in Nanopore sequencing have paved the way for new opportunities in the field of vira...
Shotgun metagenomic sequencing (SMg) enables the simultaneous detection and characterization of viru...
AbstractRecent advances in nucleic acid sequencing technologies, referred to as ‘next-generation’ se...
Efficient detection of human respiratory viral pathogens is crucial in the management of patients wi...
BACKGROUND: To understand the dynamics of infectious diseases, genomic epidemiology is increasingly ...
Until recently, the method of choice to characterize viral diversity consisted in cloning PCR amplic...
International audienceUntil recently, the method of choice to characterize viral diversity consisted...
International audienceNext-generation sequencing (NGS), through the implementation of metagenomic pr...