MYRTA – handheld device for PCR
Lincoln, Nebraska “Materials and Machines Corporation (MatMaCorp) has introduced its new handheld device MY Real-Time [MORE]
CRISPR Off On switch
MIT and University of California at San Francisco have developed a process that better controls CRISPR gene [MORE]
Comprehensive cancer profiling
After three years of following 240 cancer patients, Roche and Swiss university researchers have reported on their toponomic [MORE]
Single cell reconstruction of adult human heart
From fourteen healthy adult hearts that were rejected after transplantation, a research team headed [MORE]
New map charts genetic expression
In personalized medicine, the inescapable fact is that the macro-difference between individuals is whether they are [MORE]
Sequence-directed gel degradation
MIT bioengineers have “created a system for making DNA-containing gels that are capable of responding to nearly any [MORE]
Revolutionizing the CRISPR CAS method
“ETH (the Swish Federal Institute of Technology in Zurich) scientists have created a plasmid, or a [MORE]
Pain assessment
“Please tell me, on this chart, your pain level from 1 to 10 cartoon faces.” Hippocrates could have done [MORE]
Digital DNA detection
First, affix a piece of graphene to a pyrene substrate. Then, load Cas9 and guide RNA molecules onto [MORE]
Monkeys cloned from a gene-edited macaque
This piece is thin on details, but it describes a new gene editing technique called [MORE]
New DxCollect collector for home use
DxTerity (Rancho Dominguez, CA) has introduced an autoimmune profile test for diseases like rheumatoid arthritis, [MORE]
Genome
One thing that’s largely true about medical innovation is that the new is more expensive than the old. Clinical DNA [MORE]
RNA modifying tool
While gene editing focuses on DNA, a lab at The Scripps Research Institute (Jupiter, FL) has paired a small [MORE]
Extracellular Vesicle Capture
Last week, we had a piece from Aalto University in Finland about a plasmonic biosensor that detects exosomes [MORE]