Next-generation sequencing (NGS) opens up exciting possibilities for improving our knowledge of environmental microbial diversity, allowing rapid and cost-effective identification of both cultivated and uncultivated microorganisms. However, library preparation, sequencing, and analysis of the results can provide inaccurate representations of the studied community compositions. Therefore, all these steps need to be taken into account carefully. Here we evaluated the effects of DNA extraction methods, targeted 16S rRNA hypervariable regions, and sample origins on the diverse microbes detected by 454 pyrosequencing in marine cold seep and hydrothermal vent sediments. To assign the reads with enough taxonomic precision, we built a database with...
<div><p>Background</p><p>Bacterial community composition in the marine environment differs from one ...
The diversity of bacterial communities in deep marine sediments, up to 503 metres below the sea floo...
The diversity of bacterial communities in deep marine sediments, up to 503 metres below the sea floo...
International audienceNext-generation sequencing (NGS) opens up exciting possibilities for improving...
International audienceNext-generation sequencing (NGS) opens up exciting possibilities for improving...
International audienceNext-generation sequencing (NGS) opens up exciting possibilities for improving...
International audienceNext-generation sequencing (NGS) opens up exciting possibilities for improving...
International audienceNext-generation sequencing (NGS) opens up exciting possibilities for improving...
International audienceNext-generation sequencing (NGS) opens up exciting possibilities for improving...
BACKGROUND: Bacterial community composition in the marine environment differs from one geographical ...
Bacterial community composition in the marine environment differs from one geographical location to ...
The diversity of bacterial communities in deep marine sediments, up to 503 metres below the sea floo...
DNA extraction was carried out as described on the MICROBIS project pages (http://icomm.mbl.edu/micr...
International audienceThe microbial taxonomic composition of the three domains of life in two coasta...
The diversity of bacterial communities in deep marine sediments, up to 503 metres below the sea floo...
<div><p>Background</p><p>Bacterial community composition in the marine environment differs from one ...
The diversity of bacterial communities in deep marine sediments, up to 503 metres below the sea floo...
The diversity of bacterial communities in deep marine sediments, up to 503 metres below the sea floo...
International audienceNext-generation sequencing (NGS) opens up exciting possibilities for improving...
International audienceNext-generation sequencing (NGS) opens up exciting possibilities for improving...
International audienceNext-generation sequencing (NGS) opens up exciting possibilities for improving...
International audienceNext-generation sequencing (NGS) opens up exciting possibilities for improving...
International audienceNext-generation sequencing (NGS) opens up exciting possibilities for improving...
International audienceNext-generation sequencing (NGS) opens up exciting possibilities for improving...
BACKGROUND: Bacterial community composition in the marine environment differs from one geographical ...
Bacterial community composition in the marine environment differs from one geographical location to ...
The diversity of bacterial communities in deep marine sediments, up to 503 metres below the sea floo...
DNA extraction was carried out as described on the MICROBIS project pages (http://icomm.mbl.edu/micr...
International audienceThe microbial taxonomic composition of the three domains of life in two coasta...
The diversity of bacterial communities in deep marine sediments, up to 503 metres below the sea floo...
<div><p>Background</p><p>Bacterial community composition in the marine environment differs from one ...
The diversity of bacterial communities in deep marine sediments, up to 503 metres below the sea floo...
The diversity of bacterial communities in deep marine sediments, up to 503 metres below the sea floo...