We have identified an environmental bacterium in the Candidate Division TM7 with $98.5 % 16S rDNA gene homology to a group of TM7 bacteria associated with the human oral cavity and skin. The environmental TM7 bacterium (referred to as TM7a-like) was readily detectable in wastewater with molecular techniques over two years of sampling. We present the first images of TM7a-like cells through FISH technique and the first images of any TM7 as viable cells through the STARFISH technique. In situ quantification showed TM7 concentration in wastewater up to five times greater than in human oral sites. We speculate that upon further characterization of the physiology and genetics of the TM7a-like bacterium from environmental sources and confirmation ...
Gene inventory and metagenomic techniques have allowed rapid exploration of bacterial diversity and ...
Specific oligonucleotide hybridization conditions were established for single-cell enumeration of un...
Gene inventory and metagenomic techniques have allowed rapid exploration of bacterial diversity and ...
We have identified an environmental bacterium in the Candidate Division TM7 with ≥98.5% 16S rDNA gen...
An uncultured human-associated bacterium model The Bacteria Domain experienced an explosion of novel...
The diversity of prokaryotes associated with humans has been dominated by uncultured species (not i...
A molecular approach was used to investigate a recently described candidate division of the domain B...
The TM7 bacterial phylum has no cultivated species and includes members that span a broad range of e...
Most bacteria are yet to be cultivated, and some uncultivated bacteria have been associated with hum...
TM7 is an uncultivable bacterial group. Comparative analysis of the 16S rDNA gene is currently the ...
Candidate division TM7 is a highly ubiquitous phylum and 16S rRNA gene sequences have been detected ...
Complex and naturally occurring microbial communities are known to be predominantly composed of uncu...
Members of the uncultivated bacterial division TM7 have been detected in the human mouth, but little...
Campbell AG, Schwientek P, Vishnivetskaya T, et al. Diversity and genomic insights into the uncultur...
We have developed a microfluidic device that allows the isolation and genome amplification of indivi...
Gene inventory and metagenomic techniques have allowed rapid exploration of bacterial diversity and ...
Specific oligonucleotide hybridization conditions were established for single-cell enumeration of un...
Gene inventory and metagenomic techniques have allowed rapid exploration of bacterial diversity and ...
We have identified an environmental bacterium in the Candidate Division TM7 with ≥98.5% 16S rDNA gen...
An uncultured human-associated bacterium model The Bacteria Domain experienced an explosion of novel...
The diversity of prokaryotes associated with humans has been dominated by uncultured species (not i...
A molecular approach was used to investigate a recently described candidate division of the domain B...
The TM7 bacterial phylum has no cultivated species and includes members that span a broad range of e...
Most bacteria are yet to be cultivated, and some uncultivated bacteria have been associated with hum...
TM7 is an uncultivable bacterial group. Comparative analysis of the 16S rDNA gene is currently the ...
Candidate division TM7 is a highly ubiquitous phylum and 16S rRNA gene sequences have been detected ...
Complex and naturally occurring microbial communities are known to be predominantly composed of uncu...
Members of the uncultivated bacterial division TM7 have been detected in the human mouth, but little...
Campbell AG, Schwientek P, Vishnivetskaya T, et al. Diversity and genomic insights into the uncultur...
We have developed a microfluidic device that allows the isolation and genome amplification of indivi...
Gene inventory and metagenomic techniques have allowed rapid exploration of bacterial diversity and ...
Specific oligonucleotide hybridization conditions were established for single-cell enumeration of un...
Gene inventory and metagenomic techniques have allowed rapid exploration of bacterial diversity and ...