Recent years have seen a remarkable increase in the practicality of sequencing whole genomes from large numbers of bacterial isolates. The availability of this data has huge potential to deliver new insights into the evolution and epidemiology of bacterial pathogens, but the scalability of the analytical methodology has been lagging behind that of the sequencing technology. Here we present a step-by-step approach for such large-scale genomic epidemiology analyses, from bacterial genomes to epidemiological interpretations. A central component of this approach is the dated phylogeny, which is a phylogenetic tree with branch lengths measured in units of time. The construction of dated phylogenies from bacterial genomic data needs to account fo...
With population genomics analyses, researchers can understand genetic relationships in populations a...
Population structure influences genealogical patterns, however data pertaining to how populations ar...
A revolution in sequencing technologies in recent years has led to dramatically increased throughput...
Next-generation sequencing has ushered in a new era of microbial genomics, enabling the detailed his...
The sequencing and comparative analysis of a collection of bacterial genomes from a single species o...
Technological advances in high-throughput genome sequencing have led to an enhanced appreciation of ...
Bacteriology has embraced the next-generation sequencing revolution, swiftly moving from the time of...
Interpreting microbial whole genome sequencing data remains an ongoing challenge in the fields of pu...
For the most part, diagnostic clinical microbiology still relies on 19th century ideas and technique...
Vast amounts of molecular data are being generated every day. However, how to properly harness the d...
Abstract Background Whole geno...
Microbes strongly impact human health and the ecosystem of which they are a part. Rapid improvements...
Genomic epidemiology is a tool for tracing transmission of pathogens based on whole-genome sequencin...
The routine use of genomics for disease surveillance provides the opportunity for high-resolution ba...
Current sequencing technologies have created unprecedented opportunities for studying microbial popu...
With population genomics analyses, researchers can understand genetic relationships in populations a...
Population structure influences genealogical patterns, however data pertaining to how populations ar...
A revolution in sequencing technologies in recent years has led to dramatically increased throughput...
Next-generation sequencing has ushered in a new era of microbial genomics, enabling the detailed his...
The sequencing and comparative analysis of a collection of bacterial genomes from a single species o...
Technological advances in high-throughput genome sequencing have led to an enhanced appreciation of ...
Bacteriology has embraced the next-generation sequencing revolution, swiftly moving from the time of...
Interpreting microbial whole genome sequencing data remains an ongoing challenge in the fields of pu...
For the most part, diagnostic clinical microbiology still relies on 19th century ideas and technique...
Vast amounts of molecular data are being generated every day. However, how to properly harness the d...
Abstract Background Whole geno...
Microbes strongly impact human health and the ecosystem of which they are a part. Rapid improvements...
Genomic epidemiology is a tool for tracing transmission of pathogens based on whole-genome sequencin...
The routine use of genomics for disease surveillance provides the opportunity for high-resolution ba...
Current sequencing technologies have created unprecedented opportunities for studying microbial popu...
With population genomics analyses, researchers can understand genetic relationships in populations a...
Population structure influences genealogical patterns, however data pertaining to how populations ar...
A revolution in sequencing technologies in recent years has led to dramatically increased throughput...