Microbial communities are often composed by complex mixtures of multiple strains of the same species, characterized by a wide genomic and phenotypic variability. Computational methods able to identify, quantify and classify the different strains present in a sample are essential to fully exploit the potential of metagenomic sequencing in microbial ecology, with applications that range from the epidemiology of infectious diseases to the characterization of the dynamics of microbial colonization. Here we present a computational approach that uses the available genomic data to reconstruct complex strain profiles from metagenomic sequencing, quantifying the abundances of the different strains and cataloging them according to the population stru...
Microorganisms are an indispensable part of our ecosystem, yet the natural metabolic and ecological ...
Metagenomics is a discipline that enables the genomic study of uncultured microorganisms. Faster, ch...
Identifying microbial strains and characterizing their functional potential is essential for pathoge...
Microbial communities are often composed by complex mixtures of multiple strains of the same species...
Metagenomic sequencing is a powerful tool for examining the diversity and complexity of microbial co...
Complex microbial communities play a crucial role in environmental and human health. Traditionally, ...
We present the Metagenomic Intra-species Diversity Analysis System (MIDAS), which is an integrated c...
Among the human health conditions linked to microbial communities, phenotypes are often associated w...
While genome databases are nearing a complete catalog of species commonly inhabiting the human gut, ...
Background We introduce DESMAN for De novo Extraction of Strains from MetAgeNomes. Metagenome sequen...
An important fraction of microbial diversity is harbored in strain individuality, so identification ...
It is necessary to study bacterial strains in environmental samples. The environmental samples are m...
Metagenomics has a great potential to discover previously unattainable information about microbial c...
Metagenomics allows analyzing genomic material taken directly from the environment. In contrast to c...
By sampling the genetic content of microbes at the nucleotide level, metagenomics has rapidly esta...
Microorganisms are an indispensable part of our ecosystem, yet the natural metabolic and ecological ...
Metagenomics is a discipline that enables the genomic study of uncultured microorganisms. Faster, ch...
Identifying microbial strains and characterizing their functional potential is essential for pathoge...
Microbial communities are often composed by complex mixtures of multiple strains of the same species...
Metagenomic sequencing is a powerful tool for examining the diversity and complexity of microbial co...
Complex microbial communities play a crucial role in environmental and human health. Traditionally, ...
We present the Metagenomic Intra-species Diversity Analysis System (MIDAS), which is an integrated c...
Among the human health conditions linked to microbial communities, phenotypes are often associated w...
While genome databases are nearing a complete catalog of species commonly inhabiting the human gut, ...
Background We introduce DESMAN for De novo Extraction of Strains from MetAgeNomes. Metagenome sequen...
An important fraction of microbial diversity is harbored in strain individuality, so identification ...
It is necessary to study bacterial strains in environmental samples. The environmental samples are m...
Metagenomics has a great potential to discover previously unattainable information about microbial c...
Metagenomics allows analyzing genomic material taken directly from the environment. In contrast to c...
By sampling the genetic content of microbes at the nucleotide level, metagenomics has rapidly esta...
Microorganisms are an indispensable part of our ecosystem, yet the natural metabolic and ecological ...
Metagenomics is a discipline that enables the genomic study of uncultured microorganisms. Faster, ch...
Identifying microbial strains and characterizing their functional potential is essential for pathoge...