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tag atomic force microscopy microbiology culture genetics genomics

A scanning electron micrograph of a coculture of E. coli and Acinetobacter baylyi. Nanotubes can be seen extending from the E. coli.
What’s the Deal with Bacterial Nanotubes?
Sruthi S. Balakrishnan | Jun 1, 2021 | 10+ min read
Several labs have reported the formation of bacterial nanotubes under different, often contrasting conditions. What are these structures and why are they so hard to reproduce?
“Alive” and In Focus
Sarah Webb, Knowable Magazine | Oct 1, 2012 | 7 min read
Imaging viruses in action
Suited to a T
Kelly Rae Chi | May 1, 2013 | 8 min read
Sorting out T-cell functional and phenotypic heterogeneity depends on studying single cells.
Bacteria Harbor Geometric “Organelles”
Amber Dance | Dec 1, 2018 | 10+ min read
Microbes, traditionally thought to lack organelles, get a metabolic boost from geometric compartments that act as cauldrons for chemical reactions. Bioengineers are eager to harness the compartments for their own purposes.
Sensing a Little Tension
Nicholette Zeliadt | Sep 1, 2013 | 8 min read
Tools and techniques for measuring forces in living cells
Monitoring Mutations with Microfluidics
Ruth Williams | Mar 15, 2018 | 3 min read
A device dubbed the “mother machine” enables real-time observation of mutagenesis in single bacterial cells.  
The Search for Persisters
Amanda B. Keener | Aug 11, 2015 | 4 min read
Lyme disease–causing bacteria can outmaneuver antibiotics in vitro and manipulate the mouse immune system.
Live Wires
Mohamed Y. El-Naggar and Steven E. Finkel | May 1, 2013 | 10+ min read
Discoveries of microbial communities that transfer electrons between cells and across relatively long distances are launching a new field of microbiology.
A Genomic View of Oceanic Life
Leslie Pray | Oct 14, 2001 | 6 min read
Last year, scientists discovered a unique, energy-generating, light-absorbing protein previously unknown to exist in oceanic life. They named the protein proteorhodopsin.1 The bacteria that harbor it are a distinct phylogenetic group known as SAR86. This year, scientists learned that as much as 10 percent of the ocean's surface is occupied by these proteorhodopsin-containing bacteria--as many as 1x105 cells per milliliter of sea water.2 The researchers, led by marine microbiologist Edward DeLo
Lost Colonies
Anna Azvolinsky | Oct 1, 2015 | 10+ min read
Next-generation sequencing has identified scores of new microorganisms, but getting even abundant bacterial species to grow in the lab has proven challenging.

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