Identification and quantification of microorganisms is a significant step in studying the alpha and beta diversities within and between microbial communities respectively. Both identification and quantification of a given microbial community can be carried out using whole genome shotgun sequences with less bias than when using 16S-rDNA sequences. However, shared regions of DNA among reference genomes and taxonomic units pose a significant challenge in assigning reads correctly to their true origins. The existing microbial community profiling tools commonly deal with this problem by either preparing signature-based unique references or assigning an ambiguous read to its least common ancestor in a taxonomic tree. The former method is limited ...
To quantify known and unknown microorganisms at species-level resolution using shotgun sequencing da...
Motivation Analysis toolkits for shotgun metagenomic data achieve strain-level characterization of c...
Technological advances in next-generation sequencing-based approaches have greatly impacted the anal...
Identification and quantification of microorganisms is a significant step in studying the alpha and ...
Metagenomics allows analyzing genomic material taken directly from the environment. In contrast to c...
<div><p>Microbial community profiling identifies and quantifies organisms in metagenomic sequencing ...
Shotgun Metagenomics has emerged as a popular approach for understanding the underlying microbial co...
Background: Advances in next-generation sequencing (NGS) technology has provided us with an opportun...
Microbial community profiling identifies and quantifies organisms in metagenomic sequencing data usi...
Next-generation sequencing technologies allow accomplishing massive DNA sequencing, uncovering the m...
Microbial community profiling identifies and quantifies organisms in metagenomic sequenc-ing data us...
The VIMSS/ESPP2 project requires understanding of the microbial communities at contaminated field si...
A major challenge in the field of shotgun metage-nomics is the accurate identification of organisms ...
We introduce the operational genomic unit (OGU) method, a metagenome analysis strategy that directly...
A first step for a better understanding of complex microbial ecosystems, such as cheese or human gut...
To quantify known and unknown microorganisms at species-level resolution using shotgun sequencing da...
Motivation Analysis toolkits for shotgun metagenomic data achieve strain-level characterization of c...
Technological advances in next-generation sequencing-based approaches have greatly impacted the anal...
Identification and quantification of microorganisms is a significant step in studying the alpha and ...
Metagenomics allows analyzing genomic material taken directly from the environment. In contrast to c...
<div><p>Microbial community profiling identifies and quantifies organisms in metagenomic sequencing ...
Shotgun Metagenomics has emerged as a popular approach for understanding the underlying microbial co...
Background: Advances in next-generation sequencing (NGS) technology has provided us with an opportun...
Microbial community profiling identifies and quantifies organisms in metagenomic sequencing data usi...
Next-generation sequencing technologies allow accomplishing massive DNA sequencing, uncovering the m...
Microbial community profiling identifies and quantifies organisms in metagenomic sequenc-ing data us...
The VIMSS/ESPP2 project requires understanding of the microbial communities at contaminated field si...
A major challenge in the field of shotgun metage-nomics is the accurate identification of organisms ...
We introduce the operational genomic unit (OGU) method, a metagenome analysis strategy that directly...
A first step for a better understanding of complex microbial ecosystems, such as cheese or human gut...
To quantify known and unknown microorganisms at species-level resolution using shotgun sequencing da...
Motivation Analysis toolkits for shotgun metagenomic data achieve strain-level characterization of c...
Technological advances in next-generation sequencing-based approaches have greatly impacted the anal...