Background: It has been shown in a number of metagenomic studies that the addition and removal of specific genes have allowed microbiomes to adapt to specific environmental conditions by losing and gaining specific functions. But it is not known whether and how the regulation of gene expression also contributes to adaptation. Results: We have here characterized and analyzed the metaregulome of three different environments, as well as their impact in the adaptation to particular variable physico-chemical conditions. For this, we have developed a computational protocol to extract regulatory regions and their corresponding transcription factors binding sites directly from metagenomic reads and applied it to three well known environments: Acid...
The Earth possesses a number of regulatory feedback mechanisms involving life. In the absence of a p...
Recently, approaches have been developed to sample the genetic content of heterogeneous environments...
The structure and function of microbial communities vary along environmental gradients; however, int...
Background: DNA-binding transcription factors (TFs) regulate cellular functions in prokaryotes, ofte...
Understanding molecular mechanisms that determine the species life history is important for predicti...
Perception by each individual organism of its environment's parameters is a key factor for survival....
Microorganisms are ubiquitous on Earth and can inhabit almost every environment. In a complex hetero...
Global changes such as increased frequency of fire, drought, and nitrogen deposition, perturb microo...
Advances in next generation sequencing technologies, omics, and bioinformatics are revealing a treme...
A major unresolved question is how bacteria living in complex communities respond to environmental c...
Gene regulatory networks are thought to be a vital contribution to microbial resilience in a fluctua...
Microbes are ubiquitous in virtually all habitats on Earth and affect human life in multiple ways, f...
Abstract: Nutrient resource availability is a crucial environmental factor in determining soil bacte...
Numerous lineage-specific expansions of the transcription factor B (TFB) family in archaea suggests ...
<p>Microorganisms mediate many biogeochemical processes critical to the functioning of ecosystems, w...
The Earth possesses a number of regulatory feedback mechanisms involving life. In the absence of a p...
Recently, approaches have been developed to sample the genetic content of heterogeneous environments...
The structure and function of microbial communities vary along environmental gradients; however, int...
Background: DNA-binding transcription factors (TFs) regulate cellular functions in prokaryotes, ofte...
Understanding molecular mechanisms that determine the species life history is important for predicti...
Perception by each individual organism of its environment's parameters is a key factor for survival....
Microorganisms are ubiquitous on Earth and can inhabit almost every environment. In a complex hetero...
Global changes such as increased frequency of fire, drought, and nitrogen deposition, perturb microo...
Advances in next generation sequencing technologies, omics, and bioinformatics are revealing a treme...
A major unresolved question is how bacteria living in complex communities respond to environmental c...
Gene regulatory networks are thought to be a vital contribution to microbial resilience in a fluctua...
Microbes are ubiquitous in virtually all habitats on Earth and affect human life in multiple ways, f...
Abstract: Nutrient resource availability is a crucial environmental factor in determining soil bacte...
Numerous lineage-specific expansions of the transcription factor B (TFB) family in archaea suggests ...
<p>Microorganisms mediate many biogeochemical processes critical to the functioning of ecosystems, w...
The Earth possesses a number of regulatory feedback mechanisms involving life. In the absence of a p...
Recently, approaches have been developed to sample the genetic content of heterogeneous environments...
The structure and function of microbial communities vary along environmental gradients; however, int...
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