Amazingly, a new
microscopy technique described in the journal Science on Friday makes those deep dives possible, and there are gorgeous videos to prove it.
In the lab, the team mixed each strain of K. veneficum with a species of algae on which it preys, and recorded the three - dimensional motions of thousands of cells using a high - speed holographic
microscopy technique they described in 20071.
Not exact matches
Described in a study published in the journal Nature Communications, this novel approach uses high - speed atomic force
microscopy (AFM) combined with a CRISPR - based chemical barcoding
technique to map DNA nearly as accurately as DNA sequencing while processing large sections of the genome at a much faster rate.
Two research teams have independently developed light
microscopy techniques that resolve objects on the nanometer scale, one of which is
described online in Science this week (www.sciencemag.org/cgi/content/abstract/1127344).
Boyden and colleagues first
described the underlying
technique, known as expansion
microscopy (ExM), last year, when they used it to image proteins inside large samples of brain tissue.
In the study published this week in the journal Science, the research team
described how they enhanced an existing imaging
technique, called scanning tunneling
microscopy, to capture signals from the Majorana particle at both ends of an atomically thin iron wire stretched on the surface of a crystal of lead.