Add to ORKGThe human gut microbiome consists of at least 3 million non-redundant genes, 150 times that of the core human genome. Herein, we report the identification and characterisation of a novel stress tolerance gene from the human gut metagenome. The locus, assigned brpA, encodes a membrane protein with homology to a brp/blh-family β-carotene monooxygenase. Cloning and heterologous expression of brpA in Escherichia coli confers a significant salt tolerance phenotype. Furthermore, when cultured in the presence of exogenous β-carotene, cell pellets adopt a red/orange pigmentation indicating the incorporation of carotenoids in the cell membrane
Functional environmental screening of metagenomic libraries is a powerful means to identify and assi...
Functional environmental screening of metagenomic libraries is a powerful means to identify and assi...
Every niche in the biosphere is touched by the seemingly endless capacity of microbes to transform t...
The human gut microbiome consists of at least 3 million non-redundant genes, 150 times that of the c...
The human gut microbiome consists of at least 3 million non-redundant genes, 150 times that of the c...
<div><p>The human gut microbiome consists of at least 3 million non-redundant genes, 150 times that ...
The human gut microbiome consists of at least 3 million non-redundant genes, 150 times that of the c...
The ability to adapt to and respond to increases in external osmolarity is an important characterist...
Functional environmental screening of metagenomic libraries is a powerful means to identify and assi...
In the current study, a number of salt-tolerant clones previously isolated from a human gut metageno...
Functional environmental screening of metagenomic libraries is a powerful means to identify and assi...
Metagenomics is a powerful tool that allows for the culture-independent analysis of complex microbia...
Metagenomics is a powerful tool that allows for the culture-independent analysis of complex microbia...
Metagenomics is a powerful tool that allows for the culture-independent analysis of complex microbia...
doi: 10.3389/fmicb.2014.00189 Combined metagenomic and phenomic approaches identify a novel salt tol...
Functional environmental screening of metagenomic libraries is a powerful means to identify and assi...
Functional environmental screening of metagenomic libraries is a powerful means to identify and assi...
Every niche in the biosphere is touched by the seemingly endless capacity of microbes to transform t...
The human gut microbiome consists of at least 3 million non-redundant genes, 150 times that of the c...
The human gut microbiome consists of at least 3 million non-redundant genes, 150 times that of the c...
<div><p>The human gut microbiome consists of at least 3 million non-redundant genes, 150 times that ...
The human gut microbiome consists of at least 3 million non-redundant genes, 150 times that of the c...
The ability to adapt to and respond to increases in external osmolarity is an important characterist...
Functional environmental screening of metagenomic libraries is a powerful means to identify and assi...
In the current study, a number of salt-tolerant clones previously isolated from a human gut metageno...
Functional environmental screening of metagenomic libraries is a powerful means to identify and assi...
Metagenomics is a powerful tool that allows for the culture-independent analysis of complex microbia...
Metagenomics is a powerful tool that allows for the culture-independent analysis of complex microbia...
Metagenomics is a powerful tool that allows for the culture-independent analysis of complex microbia...
doi: 10.3389/fmicb.2014.00189 Combined metagenomic and phenomic approaches identify a novel salt tol...
Functional environmental screening of metagenomic libraries is a powerful means to identify and assi...
Functional environmental screening of metagenomic libraries is a powerful means to identify and assi...
Every niche in the biosphere is touched by the seemingly endless capacity of microbes to transform t...